40 Results
Models: R&S®TSME6, R&S®TSMA6B, R&S®TSMS53DC, R&S®TSMS-OMN70, R&S®TSME44DC
Models: R&S®TSME6, R&S®TSMA6B, R&S®TSMS53DC, R&S®TSMS-OMN70, R&S®TSME44DC
The R&S®TSMx mobile network scanners collect RF data to test mobile networks or analyze networks for government purposes. The new application programming interface (API) for R&S®TSMx mobile network scanners – here referred to as R&S®ViComWeb – allows the scanners to be quickly integrated into any third-party software irrespective of the operating system in use. Installations for walk and drive tests and for remote control of the scanners are supported.
Models: R&S®TSME6, R&S®TSMA6B, R&S®TSMS53DC, R&S®TSMS-OMN70, R&S®TSME44DC
The R&S®TSME30DC, R&S®TSME44DC and R&S®TSMS53DC are designed to easily upgrade the R&S®TSMx6 scanners to measure 5G NR signals in the mmWave frequency range. They perfectly extend the latest generation mobile network scanner family and provide all features for easy drive and walk testing. They are fully controlled by the R&S®TSMx6 and the corresponding software layers, which allows seamless, unattended operation.
Rohde & Schwarz mobile network testing provides a unique combined test solution that accurately measures the DL coverage using network scanners.
20-Feb-2018
Scenario based testing of C-V2X applications in lab and field environments
30-Jun-2022
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.
21-Sep-2023 | AN-No. 8NT08
Mobile network testing (MNT) and cellular network analysis (CNA) have many use cases that overlap but require different antennas. Together with our R&S®TSMx mobile network scanners, Rohde & Schwarz has several antennas for all types of measurement campaigns. Typical network scanner applications include coverage and signal quality measurements for network verification, optimization, troubleshooting and benchmarking. Network scanners are also used for MIMO, network synchronization, interference and drone based RF measurements.
The compact R&S®TSMA6B autonomous mobile network scanner is an integrated solution for efficient drive and walk testing. It offers maximum performance, autonomy and connectivity with an integrated highperformance PC and a mobile network scanner to comply with the latest requirements for state-of-the-art mobile network testing.
The R&S®TSME6 is designed for efficient drive and walk tests with a maximum degree of freedom and upgradability. With its ultracompact design and multiband and multitechnology support for simultaneous measurements, the scanner fulfills all requirements for a state-of-the-art measurement tool.
Automated spectrum clearance in LTE and 5G mobile networks
19-Apr-2024
5G NR Reduced Capabilities (RedCap) network scanning
A deeper look into 5G RedCap technology and its verification with field measurements avoid potential coexistence issues.
23-Apr-2024 | AN-No. 8NT13
Best practices for national regulatory authorities
Field measurements of network coverage and QoE are essential for regulators to validate license obligations and foster a healthy competition.
15-Apr-2024 | AN-No. 8NT14
This application note provides and overview of the technology, the details of the standard and summarizes the R&S®TSMx scanner features for LTE-M measurements.
26-Jul-2019 | AN-No. 8NT04
Video Automatic Channel Detection with R&S®TSMx The ACD makes drive tests for mobile network optimization and benchmarking much more efficient.
Rohde & Schwarz Manual for the R&S®TSMS53DC ultracompact downconverter.
Rohde & Schwarz Manual for the R&S®TSME30DC, R&S®TSME44DC Ultracompact Downconverter.
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
12-Mar-2024 | AN-No. 8NT12
17-Apr-2019
Rohde & Schwarz is the first provider of a complete end-to-end 5G NR network measurement solutionTest and measurement expert Rohde & Schwarz completes its commercial 5G NR network measurement solution. In combination with the new R&S TSME30DC downconverter, the R&S TSMx6 network scanner analyzes 5G NR signals up to 30 GHz, covering the majority of high frequency 5G NR use cases. Rounding out the solution are an updated version of the R&S ROMES4 drive test software and the R&S SmartAnalytics web-based software suite launched at MWC 2019.
Video, Nb-Iot video, Mobil network testing videos Using R&S®ROMES4 and a R&S®TSMx Scanner to test NB-IoT coverage.
The LTE C-V2X Scanner provides customers an opportunity to verify, test, and optimize ITS traffic systems (RF KPIs and decoded ITS message content).
21-Oct-2022 | AN-No. 8NT07
R&S TSMA6 Autonomous Mobile Network Scanner - Product Brochure
R&S®NESTOR is a Windows based software for analyzing cellular networks over the air interface. It is widely deployed by law enforcement agencies, intelligence services, armed forces and regulatory authorities. R&S®NESTOR is used with Rohde & Schwarz mobile network scanners and QualiPoc smartphones, which offer the most advanced technology worldwide. The software supports all of the applications that public authorities and security organizations need to gather information about cellular networks. R&S®NESTOR is used in vehicles, trains, aircraft, drones, on ships and on foot.
This video shows the importance and benefits of synchronizing the gNodeBs of one operator operating in TDD mode and explains how the synchronization of all operators’ gNodeBs affects measurement results. 5G TDD synchronization scanner TSMx ROMES interference This video shows the importance and benefits of synchronizing the gNodeBs of one operator operating in TDD mode and explains how the synchronization
In this video, we explain how to measure the synchronization of 5G networks and discuss the results from measurements in commercial 5G networks conducted with the R&S®ROMES4 real-time analysis software. 5G TDD synchronization scanner TSMx ROMES interference In this video, we explain how to measure the synchronization of 5G networks and discuss the results from measurements in commercial 5G networks