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Find the information you need from Rohde & Schwarz. Search for products, technologies, applications, manuals, datasheets, tutorials, FAQs, and more.
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Digital workflows at Cineteca Nacional with Rohde & Schwarz products - Flyer
R&S VSE-K10x / FSx-K10x, FS-K10xPC EUTRA/LTE Measurement Application - Specifications
The first part of this educational note presents the applications for and the most important types of signal generators. This is followed by a description of the construction and functioning of analog and vector signal generators.
03-May-2016 | AN-No. 1MA225
The R&S®SGS100A is an RF source designed to meet the requirements of automated test systems. It is available as a continuous wave (CW) source or as a vector signal generator with an integrated I/Q modulator. With its frequency range of up to 12.75 GHz, the vector signal generator version covers the essential digital signals. The CW version can be used as a flexible local oscillator as well as for interference testing against mobile radio standards. The R&S®SGU100A upconverter extends the frequency range to 40 GHz.
Antenna overview for Rohde & Schwarz OTA test systems - Flyer
Additional Tests on CDMA2000® Mobile Stations in Accordance with Standard TIA-98
05-Jan-2012 | AN-No. 1MA86
Calibration and Verification Solution
The UWB (Ultra-Wideband) technology is a short range wide-band radio technology specified for device to device communication operating in unlicensed spectrum. It is an RF positioning technology that enables accurate and secure peer-to-peer ranging between mobile devices with robust resistance to interference while consuming very low energy and coexisting well with other radio communication systems. UWB is used for a variety of different applications, such as asset tracking, secure payment, personal tracker, real time location services and keyless access and start of a vehicle etc. According to ABI Research forecasts, there will be well over 1 billion UWB annual device shipments by 2026. Almost every smart phone shipped in 2026 will support UWB services.Talking about testing aspect of a UWB device, in general two test methodologies can be adopted as other wireless products, either the traditional testing mode (so-called conducted test mode) with wired RF connection between the test measurement equipment and device under test (DUT) or over the air (OTA) test mode in an OTA anechoic chamber. Sometimes, it is not always possible or necessary to perform the tests under conducted mode due to the limiting factors, e.g. cost, space, complexity and direct access to the RF connectors of the product. In this case, OTA testing is then becoming a non-evitable approach. Moreover, OTA testing reflects the usage of DUT in a real condition.In this application note, R&S® OTA test solution covering transmitter (Tx), receiver (Rx) and Time of Flight (ToF) testing in Wireless Automated Testing (WMT) environment is described. The measurement results throughout the whole document are based on NXP Trimension™ NCJ29D5 UWB automotive IC.
12-Apr-2023 | AN-No. 1SL394
You want to learn more about internal and external interference in 5G NR networks? Read here how the to measure the uplink and downlink spectrum in 5G NR TDD networks by applying a time-gate.
5G Broadcast is a new concept in media delivery & opens up new business opportunities. Learn more about our 5G transmitter!
EN-DC Mode According to 3GPP 38.521-3
This application note aims to guide through the 5G NR Frequency Range 1 (FR1) NSA RF UE conformance test according to 3GPP38.521-3 based on mobile radio tester R&S®CMX.
25-Jun-2021 | AN-No. 1SL368
Simulation of BCCH Channel of GSM/PCN Base Station with Signal Generator SME
01-Jul-1999 | AN-No. 1GPAN14
Learn why network synchronization measurements in the time domain are becoming increasingly important given the high flexibility of 5G NR.
The Rohde & Schwarz product portfolio of test and measurement, equipment for mobile radios, radiocommunications, TV broadcasting and IT-security.
His setup runs at very low temperatures that is colder than outerspace and his expertise is on the microwave control system that is used to control the qubits. He helps to develop the control system operating between 8 - 140 GHz systems in the Centre for Quantum Technologies, Singapore and The Center for Quantum Information and Quantum Biology, Japan.