35 Résultats
Introduction à la technologie VAMOS
août 17, 2011 | Numéro des notes d'application 1MA181
Déploiement de pilotes LabVIEW pour le R&S®CompactTSVP
déc. 28, 2007 | Numéro des notes d'application 1SP805
Les performances du récepteur d'un équipement utilisateur (UE, User Equipment) LTE ont une incidence considérable sur la capacité et la couverture d'un réseau radio cellulaire. Elles détermines le débit de données maximal sur l'interface hertzienne entre la station de base LTE (eNB, evolved Node B) et l'UE de l'abonné au réseau mobile, et donc la capacité globale à 'échelle de l'interface hertzienne. Aussi, vérifier les performances réelles du récepteur d'un appareil compte parmi les mesures les plus importantes, et constitue en outre un élément de mesure clé particulièrement lorsqu'il s'agit de comparer différents équipements.Ce document propose une introduction aux mesures des performances des récepteurs et examine les éléments de mesure, ainsi que les défis liés aux mesures OTA (Over The Air).
août 31, 2017 | Numéro des notes d'application 1ST001
5G NR Reduced Capabilities (RedCap) network scanning
A deeper look into 5G RedCap technology and its verification with field measurements avoid potential coexistence issues.
Apr 23, 2024 | Numéro des notes d'application 8NT13
The educational note describes test methods and solutions to ensure high performance of private 5G networks for various new vertical use cases
Aug 11, 2023 | Numéro des notes d'application 8NT09
Machine learning use cases like network utilization rating and call stability score extract insights from network data analytics enabling network optimization
Feb 28, 2024 | Numéro des notes d'application 8NT10
Active, high-impedance probes can be connected to spectrum analyzers, providing a practical and highly precise measurement solution to overcome an otherwise cumbersome RF testing issue. This application note provides information on how to use oscilloscope probes in RF measurements using spectrum analyzers
Jul 04, 2023 | Numéro des notes d'application 1EF116
1EF105, K18D MATLAB Modeling Toolkit
Mar 25, 2019 | Numéro des notes d'application 1EF105
This application note describes a technique to perform a calibrated noise power measurement (P_hot) with spectrum analyzers and noise sources.
May 31, 2022 | Numéro des notes d'application 1EF113
A time-gated spectrum scan applies a time gate on uplink/downlink slots/symbols or guard period and helps identifying interference in operational 5G TDD networks.
Sep 21, 2023 | Numéro des notes d'application 8NT08
Using R&S®ELEKTRA Migration Tool
The R&S®ELEKTRA EMC test software is the successor of the R&S®EMC32 EMC measurement software. Like the R&S®EMC32 EMC measurement software, the R&S®ELEKTRA offers a solution that controls complete EMC systems and automates measurements on equipment under test (EUT) that is being tested for emissions (EMI) and immunity (EMS) compliance. It has more features and test types compared to R&S®EMC32.As both software platforms use different file formats, R&S®EMC32 users who upgrade their existing software to the R&S®ELEKTRA platform need to perform a file conversion before migrating their data to the R&S®ELEKTRA platform. This is done by using the R&S®ELEKTRA Migration Tool, which is installed automatically with each R&S®ELEKTRA installation.This Application Note describes how to use the R&S®ELEKTRA Migration Tool (version 4.4 onwards) for converting the backup data into the XML format that can be interpreted by the R&S®ELEKTRA software. It also provides recommended conversion steps (Chapter 5) and troubleshooting tips (Chapter 6). For instructions on migrating the data using R&S®ELEKTRA Migration Tool below version 4.4, refer to the R&S®ELEKTRA user manual. For better user experience, we recommend using the latest software version for migration.This Application Note does not describe the steps to backup data using the R&S®EMC32 or R&S®ES-SCAN software. For procedures on how to do so, refer to their respective manuals.
May 04, 2023 | Numéro des notes d'application 1SL396
.NET programming interface for R&S®GTSL and R&S®EGTSL
Mar 08, 2016 | Numéro des notes d'application 1SE001
Malware Protection Windows 10
Sep 23, 2016 | Numéro des notes d'application 1EF96
Remote Emulation with the R&S<sup>®</sup>SGT100A SGMA Vector RF source
Oct 11, 2016 | Numéro des notes d'application 1GP109
Remote Emulation with the R&S<sup>®</sup>SMBV100A Vector Signal Generator
Oct 11, 2016 | Numéro des notes d'application 1GP91
Interface Control Document for xDW streaming
Aug 25, 2021 | Numéro des notes d'application 1GP133
Remote Emulation with the R&S<sup>®</sup>SMF100A Microwave Signal Generator
Oct 11, 2016 | Numéro des notes d'application 1GP92
Interface Control Document for xDW streaming
Mar 17, 2022 | Numéro des notes d'application 1GP134
P25 and FRMCS scanning
Mission-critical networks currently in migration from narrowband to broadband play a crucial role in enabling communication for various public safety agencies
Mar 12, 2024 | Numéro des notes d'application 8NT12
Bluetooth® Low Energy channel sounding validation
Sep 06, 2023
Read this educational note and dive into the discussion about the six most important transformer measurements: turns ratio, mutual inductance, phase angle, primary and secondary inductance, leakage inductance, and interwinding capacitance.
Feb 28, 2024
This application note addresses the diverse possibilities of interoperability between Rohde & Schwarz power sensors and Rohde & Schwarz signal generators. All current and many legacy Rohde & Schwarz signal generators offer the capability of directly connecting power sensors. This enables power measurements without the need of a base unit or separate PC to display the readings. Furthermore, sensors can be used for special tasks like filling a user correction table or continuously controlling levels at crucial points in the measurement configuration.
Aug 31, 2023 | Numéro des notes d'application 1GP141
The power consumption analysis tool was developed to make it easier for customers to analyze power consumption data collected with either the NGL, NGM or NGU power supplies from Rohde & Schwarz. It allows to easily capture power consumption data and analyze using basic measurements.
Jan 31, 2022 | Numéro des notes d'application 1SL380
In the satellite sector, components, subsystems and entire satellites must be qualified in a thermal vacuum chamber before they can be used in space. This qualification proves that equipment can not only survive but also function in the harsh conditions encountered during launch and in space.
Oct 05, 2022
Generating models with a VNA and using these on an oscilloscope via the deembedding
May 23, 2023 | Numéro des notes d'application 1SL393
In this document we will describe in detail how to configure and perform path calibrations with AMS32-K81 in an ATS1500C, using an AREG800A.
May 03, 2023 | Numéro des notes d'application 1SL399
Setting up complex real-time trigger conditions using the R&S®RTE and R&S®RTO oscilloscopes increases the test coverage and robustness of converter and inverter systems.
Aug 10, 2020
MIPI D-PHY is a low-power, cost-effective physical layer interface, essential in mobile devices and advanced technology systems. It's a high-speed, source-synchronous interface used in smartphone cameras, smartwatch displays, drones, in-car entertainment, automobile cameras, and radar sensors. This application note explores MIPI D-PHY's features, functionality, and testing practices for device compliance, addressing common issues. It highlights Rohde & Schwarz's equipment for ensuring compatibility and solving issues with MIPI D-PHY, aligned with MIPI D-PHY specification version 2.5.Developed by the MIPI Alliance, D-PHY connects cameras and displays to a host processor via CSI-2 or DSI protocols. It features a master-slave, asymmetrical design for reduced link complexity. Key aspects include a unidirectional clock, optional data signal directions, different data rates for half-duplex operation, point-to-point communication, and high-speed (HS) and low-power (LP) modes for data transfer and battery preservation. In HS mode, D-PHY uses differential signaling with specific impedance, while in LP mode, it operates in a single-ended manner with high impedance termination.The application note from Rohde & Schwarz provides insights into characterizing and debugging MIPI D-PHY, offering conformance verification with MIPI Alliance standards and protocol decoding options.
Jan 31, 2024 | Numéro des notes d'application 1SL410
Rohde & Schwarz offers a powerful tool for remote control of their oscilloscopes - the RsInstrument Python module. This module enables users to control and automate their Rohde & Schwarz test & measurement instruments, including oscilloscopes, through Python scripts or interactive console communication.
Dec 14, 2023
eCall Conformance Testing
Jan 24, 2018 | Numéro des notes d'application 1MA241