Descrizione

Phase noise tester, high-end spectrum and signal analyzer in a single box
Key Facts
  • Frequency range up to 8 GHz, 26.5 GHz or 50 GHz (up to 110 GHz with external mixers)
  • Maximum dynamic range through cross-correlation
  • Analysis of settling in time domain
  • Oscillator characterization
  • Detection, suppression and listing of interference
  • Maximum flexibility for phase noise measurements
  • Low-noise source for supply and tuning voltages
  • Analysis of signals with digital and analog modulation

Brief Description The R&S®FSUP is a highly flexible phase noise tester with versatile measurement capabilities that combines the scope of functions of a high-end signal and spectrum analyzer with the benefits of a phase-noise-only tester.
Features & Benefits
  • Highly flexible phase noise tester with versatile measurement capabilities
    • Phase detector method with internal/external reference
    • Two-DUT method
    • High sensitivity
    • Automatic setting of all important parameters
    • Easy operation
    • Detection, suppression and listing of interference
    • Measurement of reference points as a function of frequency
    • Measurement of residual phase noise
    • AM noise
  • Maximum dynamic range through cross-correlation
    • Sensitivity improved by up to 20 dB
    • Cross-correlation up to 50 GHz in a single box
  • Unique combination of phase noise tester and spectrum analyzer
    • Measurement of phase noise using the spectrum analyzer method
    • Typical spectrum measurements such as ACP or interference search
    • Measurement of noise figure using the R&S®FSUP
  • Analysis in the time domain
    • Transient response of oscillators
  • Characteristics at the push of a button
    • Low-noise voltage source for supply and tuning voltages
    • Complete characterization of oscillators
  • Analysis of digital and analog modulated signals
    • General vector signal analysis of digitally modulated signals
    • Special analysis options for digital communications standards
    • Analysis of analog modulated signals (AM/FM/?M)
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