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Technical specifications of the FSW signal and spectrum analyzer.
R&S®FSW firmware 5.30 and R&S®FSVA3000/R&S®FSV3000 firmware 2.20 support
WEB Control on FSW using VNC FSW, web control, VNC settings on FSW Using WEB Control with the FSW seems to be using ports - which port settings are needed? WEB Control on FSW using VNC FSW, web control, VNC settings on FSW Using WEB Control with the FSW seems to be using ports - which port settings are needed?
The high-performance FSW signal and spectrum analyzer helps engineers accomplish the most demanding tasks. Its wide internal analysis bandwidth allows the characterization of wideband components and communications systems. Its unparalleled phase noise facilitates the development of high-performance oscillators such as those used in radars. A state-of-the-art multitouch display with gesture support ensures straightforward and intuitive operation. An embedded SCPI recorder enables easy creation of executable scripts.
FSW: Check for SYNC error via remote control FSW FAQ Check for SYNC error via remote control FSW: Check for SYNC error via remote control FSW FAQ Check for SYNC error via remote control
高性能のFSW シグナル・スペクトラム・アナライザは、要求の厳しいタスクの実行時に威力を発揮します。内部解析帯域幅が広いため、広帯域のコンポーネントや通信システムの特性評価が可能です。非常に低い位相雑音により、レーダー向け発振器などの高性能発振器の開発が容易になります。ジェスチャー操作に対応した最先端のマルチタッチディスプレイにより、わかりやすく直感的に操作できます。組み込まれたSCPIレコーダーにより、実行可能なスクリプトを簡単に作成できます。
Specifications for the R&S®FSW-K17 Multicarrier Group Delay Measurements option for the R&S®FSW signal and spectrum analyzer
FSW Signal and Spectrum Analyzer | 信号与频谱分析仪 - Product Brochure Brochures and Data Sheets Product brochure
160 MHz Real-time spectrum analyzer option
Reference measurements for calibrating navigation receivers, Production test measurements of ILS/VOR ground stations, Measurement and calibration of ramp testers
FSW: Uncal for less then 10M, Use d.c. coupled FSW FAQ FSW: Uncal for less then 10M, Use d.c. coupled FSW: Uncal for less then 10M, Use d.c. coupled FSW FAQ FSW: Uncal for less then 10M, Use d.c. coupled
R&S®FSW Signal and Spectrum Analyzer | Анализатор спектра и сигналов - Product Brochure Brochures and Data Sheets Product brochure
160 MHz Real-Time Measurement Application, POI > 15 μs
This document provides the technical specifications of the R&S®VSE-K149/FSx-K149 high rate pulse repetition frequency ultrawideband measurements.
Market-leading EVM performance in millimeter wave range
Technical specifications of the R&S®FSW-K201 OneWeb Reverse Link (SC-FDMA) measurement application for the R&S®FSW signal and spectrum analyzer
DOCSIS testing requirements include supporting a full channel load and coexistence of both DOCSIS 3.0 and DOCSIS 3.1 signals (in some cases analog TV as well). The R&S®CLGD is the only flexible and compact solution available on the market that can meet these testing requirements. The introduction of much wider bandwidths for DOCSIS 3.1 along with higher constellation modes (up to 16kQAM) require very powerful spectrum and signal analyzers. The R&S®FSW is ideal since it can measure MER that is typically 57 dB and higher and also provide BER measurements based on DOCSIS 3.1 signals.
This document provides the technical specifications of the R&S®FSW-K95/-K97 WLAN IEEE 802.11ad/ay measurement application.
English (PD 3607.1842.22)
English (PD 3606.7724.22)
English (PD 5214.6616.22)
R&S®FSW-B512R real-time spectrum analyzer 512 MHz, R&S®FSW-B800R real-time spectrum analyzer 800 MHz, R&S®FSW-K161R real-time spectrum measurement application 160 MHz, R&S®FSW-K512RE real-time spectrum measurement application 512 MHz, R&S®FSW-K800RE real-time spectrum measurement application 800 MHz
This document provides the technical specifications of the R&S®VSE-K60/R&S®FSx-K60 transient measurement application, the R&S®VSE-K60C/R&S®FSx-K60C transient chirp measurements, the R&S®VSE-K60H/R&S®FSx-K60H transient hop measurements and the R&S®FSx-K60P transient phase noise measurements.
This document provides the technical specification of the EMI measurement application for signal and spectrum analyzers – R&S®FSW-K54, R&S®FSV3-K54, R&S®FPL1-K54, R&S®FSV-K54.
The EMI measurement application (K54 option) adds EMI precompliance measurement functions to the following spectrum analyzers: R&S®FSW, R&S®FSVA3000, R&S®FSV3000, R&S®FPL1000 and R&S®FSVR. It is the ideal EMI analysis extension for product development and a smooth certification process. Typical application fields include commercial, automotive, avionics and military product development (CISPR, EN, FCC, DO‑160 and MIL-STD-461 standards).
This document provides the technical specifications of the phase noise measurement application: R&S®FSW-K40, R&S®FSMR3-K40, R&S®FSV3-K40, R&S®FPS-K40, R&S®FSV-K40, R&S®FPL1-K40.
This document provides the technical specifications of the R&S®Fxx-K30 noise figure measurement application.
This brochure gives you an overview of our over-the-air (OTA) and antenna test solutions that, once in your lab, can help you push the boundaries of what’s possible.
This document provides the technical specifications of the R&S®FSx-K8 Bluetooth® measurement application.
This document provide the technical specifications of the R&S®FSW-K144/-K145/-K147/-K147C /-K148/-K171/-K175, the R&S®FSV3-K144/-K145/-K147/-K147C/-K148/-K171/-K175, R&S®FPS-K144/-K148 and the R&S®VSE-K144/-K146/-K148/-K171/-K175
R&S®FSW-K96/R&S®FSWT-K96/R&S®FSV3-96/R&S®VSE-K96 OFDM Vector Signal Analysis Application
This white paper describes how a QAgent deployment might be handled to lessen the impact on production or lab environments.
Choosing the right instrument for your application
This document provides the technical specifications of the R&S®VSE-K7/Fxx-K7/RTO AM/FM/PM modulation analysis option.
This document provides the technical specifications of the R&S®FSx-K50 spurious measurement application.
Active electronically scanned array and antenna testing
This document provides the technical specifications of the R&S®VSE-K70x/FSx-K70x/FPx-K70x vector signal analysis application.
This document provides the technical specifications of the R&S®FSx-K18x amplifier measurements.
The -K10x options cover the inband measurements of 3GPP LTE and LTE advanced. The R&S®VSE-K100/-K102/-K104 options provide convenient analysis due to automatic detection of modulation formats. Each signal subframe is analyzed and the QPSK, 16QAM or 64QAM modulation formats plus the length of the cyclic prefix are automatically detected and used in the analysis. The cell identity can also be automatically detected, which reduces the number of settings required by the user to a minimum.
T&M solution guide for network infrastructure equipment providers
ローデ・シュワルツは、衛星トランスポンダー、モジュール、コンポーネントの開発と評価を支援するために、衛星産業に必要な測定ソリューションを提供しています。
Rohde & Schwarz signal and spectrum analyzers equipped with the R&S®FSx-K30 option form the basis of a solution to accurately measure the noise figure in the millimeterwave frequency range using the Y-factor method.
K147 option for FSW and FSV3000
This document provides the technical specifications of the R&S®VSE-K10, R&S®FSx-K10 GSM measurements
High precision test solutions for todays and tomorrows ADAS-radar
The measurement setup includes an R&S®FSW or R&S®FSV(A)3000 signal and spectrum analyzer or R&S®VSE compliant instruments with an R&S®SMW200A, R&S®SMM100A or R&S®SMBV100A vector signal generator. The closed loop system enables control of the signal generator and automatic synchronization.
This document provides the technical specifications of the R&S®VSE-K106/FSx-K106/FPS-K106 EUTRA/LTE NB-IoT measurement application.
Rohde & Schwarz has signal generation and analysis solutions that cover millimeterwave frequencies and beyond. Our signal generation and analysis solution portfolio addresses the bandwidth and frequency requirements for 5G and beyond, offering a wide range of features and application software for any testing challenge.
English (PD 3607.1736.82)
The specifications of the R&S®FSx-K91/p/n/ac/ax/be, R&S®FPS-K91/p/n/ac and R&S®VSE-K91/p/n/ac/ax/be WLAN measurement applications are based on the data sheet specifications of the R&S®FSW, R&S®FSVA3000, R&S®FSV3000 and R&S®FPS signal and spectrum analyzers.
Enhanced Specifications for AM/FM/φM Modulation Analysis
Rohde & Schwarz helps engineers develop and test satellite transponders, modules and components by providing the test and measurement solutions that the satellite market needs.
罗德与施瓦茨提供卫星市场所需的测试与测量解决方案,帮助工程师开发和测试卫星转发器、模块和组件。
Self Alignment via remote control via TCP/IP => 'CAL? FSQ; FSP; FSU; FSVR; FSUP; FSV; FSVA; FSW; FSWP; FSWT; ESU; ESR; ESRP; ESW Self Alignment via remote control via TCP/IP => 'CAL? Self Alignment via remote control via TCP/IP => 'CAL? FSQ; FSP; FSU; FSVR; FSUP; FSV; FSVA; FSW; FSWP; FSWT; ESU; ESR; ESRP; ESW Self Alignment via remote control via TCP/IP => 'CAL?
Verification of FM Chirps using R&S Pulse Sequencer software and Transient Analysis Spectrum Analyzer Option K60 Chirp, FSW, FSV, VSE, K60, Radar This summary intends to give a fast overview for generation and verification of FM chirp signals using R&S Instruments and software Tools. Verification of FM Chirps using R&S Pulse Sequencer software and Transient Analysis Spectrum Analyzer Option K60 Chirp
How can I read the equalizer file *.vae? FSW, FSV3000, FSVA3000, *.VAE, Equalizer How can I read the equalizer file *.vae? It is possible to read the file with Matlab. How can I read the equalizer file *.vae? FSW, FSV3000, FSVA3000, *.VAE, Equalizer How can I read the equalizer file *.vae? It is possible to read the file with Matlab.
Measurement points of a spectrum analyzer Measurement points of a spectrum analyzer, FSW, FSWP, FSVR; FSV, FSVA, FPS, FPL, FSC, FPC Measurement points of a spectrum analyzer Measurement points of a spectrum analyzer Measurement points of a spectrum analyzer, FSW, FSWP, FSVR; FSV, FSVA, FPS, FPL, FSC, FPC Measurement points of a spectrum analyzer
Different frequency data export using ASCII trace export SCPI commands FSW; FSVR; FSVA; FSVA3000; FSV3000; FSV; FPL1000; FSL Different frequency data export using ASCII trace export SCPI commands Different frequency data export using ASCII trace export SCPI commands FSW; FSVR; FSVA; FSVA3000; FSV3000; FSV; FPL1000; FSL Different frequency data export using ASCII trace export SCPI commands
How to automatically create and transfer a screenshot from Spectrum Analyzer to the controller PC - Python example FAQ, FSW, FSV3000, FSVA3000 How to automatically create and transfer a screenshot from Spectrum Analyzer to the controller PC How to automatically create and transfer a screenshot from Spectrum Analyzer to the controller PC - Python example FAQ, FSW, FSV3000, FSVA3000 How to automatically
How to read IQ data from Spectrum Analyzer and convert to dBm values How to read IQ data from Spectrum Analyzer and convert to dBm values How to read IQ data from Spectrum Analyzer and convert to dBm values How to read IQ data from Spectrum Analyzer and convert to dBm values
Capturing a trace in Spectrum Analyzer mode using Matlab FSV; FSW; trace Matlab spectrum power Capturing a trace in Spectrum Analyzer mode using Matlab Capturing a trace in Spectrum Analyzer mode using Matlab FSV; FSW; trace Matlab spectrum power Capturing a trace in Spectrum Analyzer mode using Matlab
Auto ID function for modulated signals to suppress unwanted mixing products FSW, FSV3000, FSVA3000 I am using a FM modulated signal and it looks like the Auto ID function is not working properly. I can still see mixing products in the spectrum. Auto ID function for modulated signals to suppress unwanted mixing products FSW, FSV3000, FSVA3000 I am using a FM modulated signal and it looks like the Auto
Where can I find the accessories for a device? FSW, find accessories for devices, datasheet of device FSW - How to find the accessories for a device. Where can I find the accessories for a device? FSW, find accessories for devices, datasheet of device FSW - How to find the accessories for a device.
Effect of linear or logarithmic x-axis scaling for the transducer factor? FAQ, FPL1000, FSW, FSV3000, FSVA3000 Effect of linear or logarithmic x-axis scaling for the transducer factor? Effect of linear or logarithmic x-axis scaling for the transducer factor? FAQ, FPL1000, FSW, FSV3000, FSVA3000 Effect of linear or logarithmic x-axis scaling for the transducer factor?
Tetra T1 Uplink Signal demodulation using VSA K70 option in Spectrum Analyzer Demodulate, Tetra T1, K70 VSA option, FSW, FSV, FSV, FSV3000, FSVA3000 User would like to demodulate a Tetra T1 uplink signal using K70 VSA option in an spectrum analyzer Tetra T1 Uplink Signal demodulation using VSA K70 option in Spectrum Analyzer Demodulate, Tetra T1, K70 VSA option, FSW, FSV, FSV, FSV3000, FSVA3000 User
File-Transfer from Device to PC via LAN connection (simple way) FSW, FSV3000, FSVA3000, FPL, CMW500, CMX500, ZNA, ZNB, ZNL, ESW, ESR, ESRP I have a file on my device. How can I get it in a simple way to my PC? File-Transfer from Device to PC via LAN connection (simple way) FSW, FSV3000, FSVA3000, FPL, CMW500, CMX500, ZNA, ZNB, ZNL, ESW, ESR, ESRP I have a file on my device. How can I get it in a simple
How do I calculate the logarithmic frequency steps for the horizontal axis? Calculate logarithmic frequency, horizontal axis, log frequency steps, FSW, FSV, FSVA, ZNA, ZNB, ZNL, ZND, ZVA, FPL How do I calculate these frequency points when I have a logarithmic sweep and know the center frequency, the span and the number of sweep points? How do I calculate the logarithmic frequency steps for the horizontal
Spectrum Analyzers - Export of trace data into a CSV file via remote control Spectrum Analyzers, FPC, FSW, FSV, FSVR, FSWP, FPL, FPS, FSVA, FSC, FSH, FPH Spectrum Analyzers - Export of trace data into a CSV file via remote control Spectrum Analyzers - Export of trace data into a CSV file via remote control Spectrum Analyzers, FPC, FSW, FSV, FSVR, FSWP, FPL, FPS, FSVA, FSC, FSH, FPH Spectrum Analyzers