We use cookies to provide you with a better experience. By continuing to browse the site you are agreeing to our use of cookies in accordance with our Privacy Policy.
The APVSG is an ultra-agile fast-switching vector signal generator series, covering a continuous frequency range from 10 MHz (optionally 100 kHz) to 4 , 6, 12, 20 or 40 GHz.
A 100 kHz to 43.5 GHz wideband frequency synthesizer with settable output power from -10 to +25 dBm, very low phase noise, low spurious, and ultra-fast switching speed. The APSYN140-X is available in the compact flange-mount enclosure.
A 100 kHz to 43.5 GHz compact frequency synthesizer with settable output power from -10 to +20 dBm, outstanding phase noise performance and signal purity, and ultra-fast switching speed.
The spectrum analyzers from Aaronia are characterized by their extremely high bandwidth and speed. Another aspect is the recording of IQ data in real time and the ability to evaluate it in detail at a later date.
2- and 4-way Wilkinson Power Dividers/Combiners range from DC to 35 GHz in a low profile, surface mount package. Available in Alumina substrate, silver plated and thin film process technology.
mmW-SDR is a state-of-the-art testbed that integrates mmWave technology with Software Defined Radio. It’s a ready-to-use platform for wireless research and radar sensing applications.
mmW-Coverage solutions emulate gNB and UE with an SDR-based testbed, redistribute FR2 mmWave signals by RIS to construct optimal coverage with reasonable cost.
The mmW-OAI testbed combines millimeter-wave (mmWave) and OpenAirInterface (OAI) to create a comprehensive test environment for 5G FR2 networks. This solution includes various components such as mmWave beamformers, frequency converters, and a powerful PC installed with the latest OAI stack.
The APULN is a high-performance analog signal generator (analog signal source) series covering RF and microwave frequency ranges from 100 kHz (optionally 8 kHz) to 12.75, 20, 26 and 40 GHz.
AR RF/Microwave Instrumentation has developed a product which uses a patented test process that adds additional test frequencies, or tones, for each test period, or dwell time.
The highest bandwidth. The lowest phase noise. The clearest user interface. All on the largest touchscreen available. The R&S®FSW exceeds all current standards in signal and spectrum analysis. Now you can develope your future innovations without the limits of previous measurement instruments. Meet the R&S®FSW. Create the future.
This application note describes the noise figure measurement using the R&S Vector Network Analyzers of the ZVA and ZVT series. It explains the concept of measuring noise figure without the need for a characterized noise source. Furthermore, it discusses different measurement applications and the respective setup and implications. Some examples guide through the instrument setups and show measurement results as well.
Combining the perspective of an industry-leading RF instrument and microwave component manufacturer with decades of switching experience under the ASCOR brand Giga-tronics can provide a solution that optimizes the performance of your entire test system.
This application note describes how to set up 3GPP FDD and LTE multicell and multi-UE scenarios with the R&S®SMU200A with a focus on routing and leveling of the baseband signals. Furthermore, it describes in detail how to determine the correct AWGN settings, i.e. how to calculate the required signal-to-noise ratio for the various scenarios.
TETRA, the TErrestrial Trunked RAdio, is the professional mobile radio standard (PMR) used world wide by governmental safety and security authorities and organizations, as well as by private utilities from energy suppliers through to transport. Rohde & Schwarz provide test instruments idealy suited for both the development and production of TETRA base stations and user equipment, as well as for network planning, network coverage and quality of service, network monitoring and optimization, maintenance, and service. This Application Note shows examples for measurements with R&S instruments covering the entire range of TETRA test requirements.
The effective number of bits (ENOB) is a way of quantifying the quality of an analog to digital conversion. A higher ENOB means that voltage levels recorded in an analog to digital conversion are more accurate. In an oscilloscope the ENOB is not just determined by the quality of the analog to digital converter but by the instrument as a whole. This application note explains how to measure the oscilloscope ENOB and shows results for the R&SâRTO for different settings.
The aim of channel sounding is to characterize a radio channel by decomposing the radio propagation path into its individual multipath components. This application note provided by Neul describes how channel sounding can be performed using the R&S SMBV100A Vector Signal Generator and the R&S FSL Spectrum Analyzer. To illustrate the procedure reference is made to 8 MHz wide white space channels in the UK.