配置型號包含以下特性:
RF & Microwave Spectrum AnalyzersSpectrum Analyzers-Performance1GHz <= 10GHzDC <= 1kHz特性 | 參數 |
---|---|
High Frequency (range) | 1GHz <= 10GHz |
Low Frequency (range) | DC <= 1kHz |
The high-performance Rohde & Schwarz FSW signal and spectrum analyzer was developed to meet demanding customer requirements. Offering low phase noise, wide analysis bandwidth and straightforward and intuitive operation, the analyzer makes measurements fast and easy.
The high-performance R&S®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.
The R&S®FSW offers up to 8.3 GHz analysis bandwidth for measuring wideband-modulated or frequency agile signals like those used in the new 5G New Radio standard or in automotive and pulsed radars.
Key Features |
FSW Series frequency range from 2 Hz to 8/13.6/26.5/43.5/50/67 GHz (with external harmonic mixers from Rohde & Schwarz up to 110 GHz) |
Low phase noise of –137 dBc (1 Hz) at 10 kHz offset (1 GHz carrier) |
Up to 320 MHz analysis bandwidth |
Real-time analysis up to 160 MHz bandwidth |
High-resolution 12.1" (31 cm) touchscreen for convenient operation |
Multiple measurement applications can be run and displayed in parallel |
Unparalleled low phase noise and best sensitivity on the market |
8.3 GHz internal analysis bandwidth |
800 MHz real-time analysis bandwidth |
SCPI recorder simplifies code generation |
New flat Windows 10 design and multitouch gesture support |
Specifications | ||
FSW Signal and Spectrum Analyzer | ||
Frequency | ||
Frequency range | FSW8 FSW13 FSW26 FSW43 FSW50 FSW67 FSW85 | 2 Hz to 8 GHz 2 Hz to 13.6 GHz 2 Hz to 26.5 GHz 2 Hz to 43.5 GHz 2 Hz to 50 GHz 2 Hz to 67 GHz 2 Hz to 85 GHz up to 90 GHz with R&S®FSW-B90G option, YIG preselector = off |
Aging of frequency reference | 1 × 10–7/year | |
with R&S®FSW-B4 option | 3 × 10–8/year | |
Bandwidths | ||
Resolution bandwidths | standard filter | 1 Hz to 10 MHz, 80 MHz (with R&S®FSW-B8 option) |
RRC filter | 18 kHz (NADC), 24.3 kHz (TETRA), 3.84 MHz (3GPP) | |
channel filter | 100 Hz to 5 MHz | |
video filter | 1 Hz to 10 MHz | |
I/Q demodulation bandwidth | 10 MHz | |
with R&S®FSW-B28 option | 28 MHz | |
with R&S®FSW-B40 option | 40 MHz | |
with R&S®FSW-B80 option | 80 MHz | |
with R&S®FSW-B160 option | 160 MHz | |
with R&S®FSW-B320 option | 320 MHz | |
with R&S®FSW-B512 option | 512 MHz | |
with R&S®FSW-B1200 option | 1.2 GHz (1) | |
with R&S®FSW-B2001 option | 2 GHz (1) | |
with R&S®FSW-B4001 option | 4.4 GHz (2) | |
with R&S®FSW-B6001 option | 6.4 GHz (3) | |
with R&S®FSW-B8001 option | 8.3 GHz (3) | |
with R&S®FSW-B2000 option | 2 GHz (4) | |
with R&S®FSW-B5000 option | 5 GHz (5) | |
Phase Noise | ||
10 kHz offset from carrier | 500 MHz carrier | –141 dBc (1 Hz) (typ.) |
1 GHz carrier | –140 dBc (1 Hz) (typ.) | |
10 GHz carrier | –133 dBc (1 Hz) (typ.) | |
Displayed Average Noise Level (DANL) | ||
2 GHz | –156 dBm (1 Hz) (typ.) | |
with R&S®FSW-B13 option | –159 dBm (1 Hz) (typ.) | |
DANL with preamplifier (R&S®FSW-B24 option) | 2 GHz | –169 dBm (1 Hz) (typ.) |
Intermodulation | ||
Third-order intercept (TOI) | f < 1 GHz | +30 dBm (typ.) |
f < 3 GHz | +25 dBm (typ.) | |
19 GHz to 26.5 GHz | +23 dBm (typ.) | |
Total Measurement Uncertainty | 8 GHz | < 0.37 dB |
Notes:
(1) Not available for the R&S®FSW8 and R&S®FSW13.
(2)Available for the R&S®FSW43, R&S®FSW50, R&S®FSW67, R&S®FSW85.
(3)Available for the R&S®FSW43, R&S®FSW50, R&S®FSW67, R&S®FSW85 for f ≥ 18 GHz.
(4) 2 GHz demodulation bandwidth for frequencies > 5.5 GHz. R&S®RTO2044 digital oscilloscope required. Not available for the R&S®FSW8 and R&S®FSW13.
(5) Available for the R&S®FSW85 and R&S®FSW43 (R&S®RTO2064 oscilloscope required).