Rohde & Schwarz FSW13 SIGNAL AND SPECTRUM Analyser The high performance Rohde & Schwarz (R&S) FSW13 Signal and Spectrum Analyser is designed for convenience, accuracy and speed. Its unique touchscreen, straightforward, multiview result display, and optimized user guidance makes operation of the R&S FSW13 Analyser efficient and convenient. With its unmatched phase noise, unparalleled dynamic range for spurious measurements, and high sensitivity even at low frequences, the R&S FSW13 guarantees high accuracy. Efficient measurement rates, rapid sweep times, quick switchover between instrument setups, makes operation fast and easy.Features and Specifications of the Rohde & Schwarz FSW13 Signal and Spectrum Analyser include:Features of the R & S FSW13 Signal and Spectrum Analyser:
Excellent dynamic range for spurious measurements because of low DANL
Harmonic measurements made easy and accurate due to integrated highpass filters:
- High sensitivity even at low frequencies
- Unparalleled dynamic range up to 1 GHz with separate receive path
Up to 500 MHz analysis bandwidth
High spurious-free dynamic range of > 100 dBc
Large I/Q memory depth for seamless recording of long signal sequences
Efficient operation with optimized user guidance
MultiView: multiple results available at a glance
Ideal for measuring oscillators for radar and communications applications as well as for analyzing radar systems:
- Fast identifcation and analysis of spurious emissions
- Measuring pulse parameters at the touch of a key
- Detection of widespread frequency-hopping signals
- Analyzing short pulse rise and fall times
Identifying interaction between signals
- Multistandard radio Analyser (MSRA)
- Multistandard realtime Analyser (MSRT)
High measurement rates and fast sweep times with sweep rates of up to 1000 sweeps/s
Fast switchover between instrument setups
Efficient measurement functions speed up operation
Integrated support of R&S®NRP-Zxx power sensors
High sensitivity even at low frequencies
Unparalleled dynamic range up to 1 GHz with separate receive path
Fast identifcation and analysis of spurious emissions
Measuring pulse parameters at the touch of a key
Detection of widespread frequency-hopping signals
Analyzing short pulse rise and fall times
Multistandard radio Analyser (MSRA)
Multistandard realtime Analyser (MSRT)
Specifications of the Rohde & Schwarz FSW13 Signal and Spectrum Analyser:
Frequency:
- Frequency range: 2 Hz to 13.6 GHz
- Aging of frequency reference: 1 x 10-7/year
- With R&S®FSW-B4: 3 x 10-8/year
Bandwidths:
- Resolution bandwidths:
- Standard filter: 1 Hz to 10 MHz
- RRC filter:
- NADC: 18 kHz
- TETRA: 24.3 kHz
- 3GPP: 3.84 MHz
- 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: 28 MHz
- With R&S®FSW-B40: 40 MHz
- With R&S®FSW-B80: 80 MHz
- With R&S®FSW-B160: 160 MHz
- With R&S®FSW-B320: 320 MHz
- With R&S®FSW-B500: 500 MHz
Displayed average noise level (DANL):
- 2 GHz: -156 dBm (1 Hz) typical
- With R&S®FSW-B13: -159 dBm (1 Hz) typical
- 8 GHz: -156 dBm (1 Hz) typical
- 20 GHz: -150 dBm (1 Hz) typical
- DANL with preamplifier (with R&S®FSW-B24):
- 8 GHz -169 dBm (1 Hz) typical
- 20 GHz -166 dBm (1 Hz) typical
- DANL with noise cancellation, preamplifier off, 2 GHz: -169 dBm (1 Hz) typical
Intermodulation:
- Third-order intercept (TOI):
- f < 1 GHz: +30 dBm (typical)
- f < 3 GHz: +25 dBm (typical)
- 8 GHz to 26 GHz: +17 dBm (typical)
- 13.6 GHz to 40 GHz: +15 dBm (typical)
WCDMA ACLR dynamic range:
- With noise cancellation: 88 dB
Phase noise:
- 10 kHz offset from carrier:
- 500 MHz carrier: -140 dBc (1 Hz) typical
- 1 GHz carrier: -137 dBc (1 Hz) typical
- 10 GHz carrier: -128 dBc (1 Hz) typical
Total measurement uncertainty: 8 GHz < .04 dB
Frequency range: 2 Hz to 13.6 GHz
Aging of frequency reference: 1 x 10-7/year
- With R&S®FSW-B4: 3 x 10-8/year
With R&S®FSW-B4: 3 x 10-8/year
Resolution bandwidths:
- Standard filter: 1 Hz to 10 MHz
- RRC filter:
- NADC: 18 kHz
- TETRA: 24.3 kHz
- 3GPP: 3.84 MHz
- 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: 28 MHz
- With R&S®FSW-B40: 40 MHz
- With R&S®FSW-B80: 80 MHz
- With R&S®FSW-B160: 160 MHz
- With R&S®FSW-B320: 320 MHz
- With R&S®FSW-B500: 500 MHz
Standard filter: 1 Hz to 10 MHz
With R&S®FSW-B8: 80 MHz
RRC filter:
- NADC: 18 kHz
- TETRA: 24.3 kHz
- 3GPP: 3.84 MHz
NADC: 18 kHz
TETRA: 24.3 kHz
3GPP: 3.84 MHz
Channel filter: 100 Hz to 5 MHz
Video filter: 1 Hz to 10 MHz
With R&S®FSW-B28: 28 MHz
With R&S®FSW-B40: 40 MHz
With R&S®FSW-B80: 80 MHz
With R&S®FSW-B160: 160 MHz
With R&S®FSW-B320: 320 MHz
With R&S®FSW-B500: 500 MHz
2 GHz: -156 dBm (1 Hz) typical
With R&S®FSW-B13: -159 dBm (1 Hz) typical
8 GHz: -156 dBm (1 Hz) typical
20 GHz: -150 dBm (1 Hz) typical
DANL with preamplifier (with R&S®FSW-B24):
- 8 GHz -169 dBm (1 Hz) typical
- 20 GHz -166 dBm (1 Hz) typical
DANL with noise cancellation, preamplifier off, 2 GHz: -169 dBm (1 Hz) typical
8 GHz -169 dBm (1 Hz) typical
20 GHz -166 dBm (1 Hz) typical
Third-order intercept (TOI):
- f < 1 GHz: +30 dBm (typical)
- f < 3 GHz: +25 dBm (typical)
- 8 GHz to 26 GHz: +17 dBm (typical)
- 13.6 GHz to 40 GHz: +15 dBm (typical)
f < 1 GHz: +30 dBm (typical)
f < 3 GHz: +25 dBm (typical)
8 GHz to 26 GHz: +17 dBm (typical)
13.6 GHz to 40 GHz: +15 dBm (typical)
With noise cancellation: 88 dB
10 kHz offset from carrier:
- 500 MHz carrier: -140 dBc (1 Hz) typical
- 1 GHz carrier: -137 dBc (1 Hz) typical
- 10 GHz carrier: -128 dBc (1 Hz) typical
500 MHz carrier: -140 dBc (1 Hz) typical
1 GHz carrier: -137 dBc (1 Hz) typical
10 GHz carrier: -128 dBc (1 Hz) typical