78 Results
Rohde & Schwarz user manual for the R&S®FSWP-K5 Pulse Measurements application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Rohde & Schwarz user manual for the R&S®FSWP-K60 Transient Analysis measurement application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Rohde & Schwarz user manual for the R&S®FSWP-K70 Vector Signal Analysis application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Rohde & Schwarz user manual for the R&S®FSWP-K30 Noise Figure application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Rohde & Schwarz user manual for the R&S®FSWP-K50 Spurious measurement application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Rohde & Schwarz User Manual for the R&S®FSWP-K7 Analog Demodulation application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP User Manual.
Rohde & Schwarz user manual for the R&S®FSWP-B1 Signal and Spectrum Analyzer application; provides all the information specific to the application. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
R&S®FSWP-B1 I/Q Analyzer user manual; provides all the information specific to the application and processing I/Q data. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Rohde & Schwarz user manual for the R&S®FSWP-B1 MSRA operating mode; describes the specific functions of the MSRA operating mode in detail, including a complete description of the remote control commands with programming examples. All general instrument functions and settings common to all applications are described in the main R&S®FSWP user manual.
Nothing happens when I connect a Power Sensor to the FSWP.
Equipped with the R&S®FSWP-K4 option, the R&S®FSWP automatically determines all pulse parameters (e.g. pulse repetition rate, pulse width) that are relevant. All results are available at the push of a button, enabling users to focus on optimizing their circuit design.
R&S®FSWP Getting Started manual; provides the information needed to set up and start working with the instrument. Basic operations and handling are described. Safety information is also included.
21-Jun-2023
Rohde & Schwarz and Zurich Instruments present advanced test solutions at LASER World of PHOTONICS in MunichRohde & Schwarz and Zurich Instruments will present advanced test and measurement solutions for photonics at the LASER World of PHOTONICS tradeshow in Munich. Highlighted solutions include the R&S FSPN and R&S FSWP, two exceptionally powerful phase noise analyzers for characterizing laser systems. Visitors can also see demos of the R&S MXO 4 and R&S RTO6 oscilloscopes from Rohde & Schwarz as well as the Quantum Computing Control System (QCCS) and lock-in amplifiers from Zurich Instruments.
Technical specifications of the R&S®FSWP phase noise analyzer and VCO tester.
This document provides the technical specifications of the R&S®FSWP phase noise analyzer and VCO tester.
R&S®FSWP Dynamic noise figure measurements - Application Card
R&S®FSWP (Facelift) Phase Noise Analyzer and VCO Tester | 相位噪声分析仪和VCO测试仪 - Product Brochure Brochures and Data Sheets Product brochure
The R&S®FSWP phase noise analyzer and VCO tester features very high sensitivity thanks to extremely low noise internal sources and cross-correlation. It can measure phase noise on highly stable sources such as those found in radar applications in just seconds. Additional options such as pulsed signal measurements, residual phase noise characterization and integrated high‑end signal and spectrum analysis make the R&S®FSWP a unique test instrument. A multitouch display ensures straightforward and intuitive operation. The embedded SCPI recorder enables easy creation of executable scripts.
Models: R&S®FSWP8, R&S®FSWP26, R&S®FSWP50
Models: R&S®FSWP8, R&S®FSWP26, R&S®FSWP50
Models: R&S®FSWP8, R&S®FSWP26, R&S®FSWP50
This paper reviews the classical spectrum analyzer measurement of L(f) and its shortcomings and discusses how modern phase noise test sets measure phase noise and avoid the limitations imposed by direct spectrum measurements.
31-Mar-2020
R&S®FSWP Security
FSWP: Get the data of the grey background curve via remote control
I have made a phase noise measurement with the FSWP and I can see a peak at 500kHz which is a spurious.
Rohde & Schwarz user manual for the R&S®FSWP Phase Noise Analyzer; it provides all the information specific to the Phase Noise application. All other operating modes and applications are described in the specific application manuals.
Performing complex measurements at the push of a button, the R&S®FSWP is ideal for high performance radar and communication system applications. The phase noise tester can also be upgraded to a signal and spectrum analyzer. R&S®FSWP, FSWP, phase noise, VCO tester The new R&S®FSWP phase noise and VCO tester from Rohde & Schwarz sets new standards in terms of sensitivity and measurement speed.
R&S®FSWP, FSWP, phase noise, VCO tester The R&S®FSWP phase noise and VCO tester from Rohde & Schwarz measures phase noise with high accuracy at frequencies beyond 50 GHz.
R&S®FSWP-K7CAL Enhanced Specifications for AM/FM/φM Modulation Analysis - Specifications
What's the difference between the integrated measurement with and without the spurs 'hidden' on FSWP, is it supposed to give random-jitter and total jitter directly, respectively and how do I get the total RMS jitter from the instrument directly?