Featured Articles

  1. 5G Mobile Network Testing Using A Passive Network Scanner (Part 3) 1/25/2023

    Part 3 of this series discusses how you can measure and analyze 5G networks passively by analyzing synchronization and broadcast signals.

  2. Radiated Wireless Coexistence Testing 12/21/2022

    This application notegives the reader a clear idea of how to configure standardized test instruments from R&S in order to generate the wanted signal as well as unintended interference signals and conduct measurement to monitor device performance.

  3. Accurate Test Fixture Characterization And De-Embedding 12/21/2022

    This application note provides practical hints to accurately characterize and de-embed these lead-in and lead-out structures with R&S Vector Network Analyzers ZNA, ZNB, ZNBT and ZND.

  4. AC-DC Converter Testing Fundamentals 12/21/2022

    AC-DC conversion stage in front of any electronic equipment is needed. For this purpose, different solutions exist to convert the higher AC voltage to a lower and safe DC voltage.

  5. eUICC Profile Handling 12/8/2022

    This application note describes the eUICC compliance and remote eUICC provisioning test solution based on R&S CMW500/CMW290 and COMPRION eUICC Profile Manager software tool with focus on M2M devices.

  6. Crowdsourcing Versus Mobile Network Testing 11/9/2022

    The need for an objective evaluation of mobile network quality and performance drives two fundamentally different approaches, crowdsourcing, and mobile network testing.

  7. 5G R&S Monitoring Receivers 10/27/2022

    This application note describes the measurement challenges of 5G NR and makes clear the benefits of using a monitoring receiver for measuring 5G signals.

  8. R&S Scope Rider RTH - Electrifying The Automotive Future 10/25/2022

    How Rohde & Schwarz used its R&S® ScopeRider RTH handheld oscilloscope to help Politecnico di Torino design vehicles with record-low fuel consumption.

  9. White Paper: Fundamentals Of THz Technology For 6G 10/25/2022

    THz technology promises to be indispensable – not only to achieve target requirements in terms of maximum throughput and extremely low latencies but also to realize intriguing novel applications.

  10. Understanding EVM 10/25/2022

    Error vector magnitude (EVM), is the most common numerical measure of modulation quality and is calculated by determining the magnitude of a vector connecting the ideal and received vector endpoints.