93 Results
R&S GNSS-RxT RED test system GNSS receiver testing in accordance with RED 2014/53/EU Article 3.2 - Application Card
GNSS Performance Testing for ERA-Glonass Modules – Fact Sheet Brochures and Data Sheets
R&S®SMBV-K361 GNSS Performance Testing for eCall Modules – Fact sheet Brochures and Data Sheets
Rohde & Schwarz GNSS Solutions Bundle - Fact Sheet Brochures and Data Sheets
Rohde&Schwarz presents a customizable solution for testing GNSS receivers to ensure a certain resilience against (legal) interference from neighboring bands.
18-Jul-2017
适用于 R&S®SMBV100B 和 R&S®SMW200A 的 GNSS 和航空电子模拟解决方案能够实时生成包含 GPS/SBAS/QZSS、伽利略、格洛纳斯和北斗信号的动态场景,包括移动场景、多路径模拟、动态功率控制和大气模拟。在移动场景中,解决方案还可以借助航天器姿态的动态变化实时模拟天线方向图和航天器机体遮蔽效应。
26-Sep-2023
ETS-Lindgren integrates R&S CMX500 and R&S SMBV100B for 5G A-GNSS antenna performance testingETS-Lindgren integrates R&S CMX500 and R&S SMBV100B for 5G A-GNSS antenna performance testing
04-Dec-2023
Rohde & Schwarz is first to deliver a 5G FR1 A-GNSS OTA test solution approved by CTIA CertificationThe R&S TS8991 over-the-air (OTA) test system from Rohde & Schwarz is the first to be approved by CTIA Certification for testing 5G A-GNSS antenna performance. This solution measures the performance of the global navigation satellite system (GNSS) receiver in a wireless device. This is critical because Assisted-GNSS is used for E911 emergency calls over 5G.
GNSS Simulator in the R&S SMBV100A Vector Signal Generator - Specifications
R&S®TS-LBS is a fully automated conformance test system that covers all major wireless 3GPP standards (GSM, WCDMA and LTE) and addresses each of the modern positioning technologies (A-GNSS, OTDOA/eCID, hybrid, control plane and user plane, field to lab, position calculation).
07-Jan-2020
AVL adds Rohde & Schwarz GNSS stimulation to vehicle test environmentGNSS signals (for example GPS signals) are of major importance for positioning and tracking, orientation and safety-related information, such as congestion, in road traffic. A collaboration between AVL and Rohde & Schwarz, two of the world’s leading providers of measuring and automotive testing systems, now permits the reproduction of realistic GNSS reception conditions for testbed vehicle testing. As a result, users can reliably test all aspects of GNSS-based vehicle positioning – a core functionality of autonomous vehicles.
LTE Location Based Services (LBS) involve the process of determining where a device is located.
29-May-2015 | AN-No. 1SP05
Video, GNSS, MCMF, SMW200A High-End GNSS Simulation with the R&S®SMW200A - Episode 3
R&S GNSS and Avionics Simulation for Rohde & Schwarz Signal Generators - Specifications
A general discussion of today’s GNSS testing needs is followed by an overview of key features and possible GNSS configurations for the R&S®SMW200A. Video, R&S®SMW200A, High-End GNSS Simulator, Automotive High-End GNSS Simulation with the R&S®SMW200A
The R&S®SMBV100A supports obscuration simulation and automatic multipath generation for testing GNSS receivers under realistic conditions. This application note presents examples to introduce the GNSS simulator's capabilities.
19-Apr-2018 | AN-No. 1GP101
This video shows how to perform multi-frequency GNSS simulations with multiple sources of interference using R&S’s high-end GNSS simulator R&S®SMW200A. video,SMW200A, GNSS simulation Unintentional or intentional interference can significantly impair the reception of GNSS signals.
Coexistence testing for GNSS receivers The performance of GNSS receivers must be validated and characterized not only under ideal conditions, but also in the presence of other communication signals like GSM, UTMS or LTE.
This application note explains how to synchronize multiple R&S®SMBV100A vector signal generators.
09-Jul-2013 | AN-No. 1GP84
It is also demonstrated how CRPAs can be tested using R&S’s high-end GNSS simulator R&S®SMW200A. video,SMW200A, GNSS simulation This video shows how to perform advanced interferer simulations for testing multi-antenna GNSS receivers with anti-jam capabilities, also known as Controlled Reception Pattern Antennas (CRPAs).
GNSS Simulator in the R&S SMBV100A Vector Signal Generator - Product Brochure
The video concludes with a summary of high-precision GNSS capabilities and challenges as well as the role of testing in ensuring reliability, particularly for safety-critical applications. High precision GNSS uses error correction techniques to improve locational accuracy to around 10cm, allowing new applications for the automotive industry, including C-V2X and autonomous driving.
In this second video of R&S’s new video series on high-end GNSS testing, it is shown how to work with the instrument, followed by a quick user interface tour introducing the most important configuration options and simulation monitoring features. Video, Simulation Modes and GUI, GNSS, SMW200A High-End GNSS Simulation with the R&S®SMW200A - Episode2
In this webinar, you will learn more about: Basics of high-accuracy GNSS, including RTK, PPP and RTK-PPP Difference between OSR and SSR correction data Correction data broadcasting via 5G Feasibility of high-accuracy in the mass-market Measurement of antenna phase and gain patterns, PCV and PCO GNSS in 5G, high-accuracy positioning, 5G LBS, High accuracy GNSS in 5G Learn more about upcoming applications
Intro to the SMBV100A The GNSS simulator supports all possible scenarios, from simple setups with individual, static satellites all the way to flexible scenarios generated in realtime with up to 24 dynamic GPS (C/A and P code), Glonass and Galileo satellites The GNSS simulator supports all possible scenarios, from simple setups with individual, static satellites all the way to flexible scenarios generated
Drone inspection requires more than just a drone and a receiver: A small and light antenna, a permanent data link to the ground, very precise and lightweight GNSS, and robust immunity to RF interferers inside and outside the drone are also needed, along with low weight and reasonable battery life.
Rohde & Schwarz getting started for the R&S®SMBV100B vector signal generator, with basic information on the initial operation and the functions of the generator.
The combination of the R&S®CMW500 mobile network simulator and the R&S®SMBV100B GNSS simulator with the Vector CANoe .Car2x software tool enables automotive engineers to simulate and test complex C-V2X scenarios in the lab.
A signal generator then creates the GNSS signal. Scenario editor software enables the user to define complex environments. The test system is capable of emulating a wide range of complex traffic and RF environments; not only ideal conditions but also challenging ones.