Descrizione

the one box solution in signal analysis
Key Facts FSIQ provides in a single unit comprehensive and easy-to-use measurement functions in the:
  • Frequency domain
  • Time domain
  • Modulation domain
FSIQ - signal analyzer for the 3rd mobile radio generation
  • High measurement speed for use in development and production
  • Versatile test routines – convenient measurements
Applications for Mobile Radio - digital and analog
Brief Description
  • Spectrum analysis with ultrawide dynamic range for sophisticated ACPR measurements: NF = 15 dB/ TOI = +20 dBm (FSIQ7)
  • Integrated vector signal analyzer for universal analysis of digital and analog modulated signals BPSK to 16QAM, (G)MSK, AM, FM, PM
  • Vector signal analyzer for W-CDMA/3GPP
  • Symbol rate up to 6.4 Msymbol/s
  • High-speed synthesizer with 5 ms sweep time for FULL SPAN (FSIQ 3/7)
  • High display update rate up to 25 sweeps/s

Features & Benefits
  • 3 models and frequency ranges
    • FSIQ 3: 20 Hz to 3.5 GHz
    • FSIQ 7: 20 Hz to 7 GHz
    • FSIQ 26: 20 Hz to 27 GHz
  • Resolution bandwidth 1 Hz to 10 MHz in 1/2/3/5 steps
  • 5-pole resolution filters with high selectivity
  • FFT filter with 1 Hz to 1 kHz RBW for fast measurements
  • Displayed average noise floor typ. -150 dBm in 10 Hz bandwidth
  • Third-order intercept +20 dBm with FSIQ 7, +22dBm with FSIQ26
  • Phase noise -150 dBc/Hz at 5 MHz offset
  • 75 dB ACPR dynamic range for W-CDMA (4.096 MHz integration BW)
  • Total measurement uncertainty <1 dB up to 2.2 GHz, <1.5 dB up to 7 GHz
  • RMS detector for high-precision power measurements irrespective of waveform
  • Fast spectrum analysis with 5 ms sweep time for full span (FSIQ3/7)
  • Fast time domain analysis with 1 µs zero span sweep time
  • Integrated broadband vector signal analyzer for all main mobile radio standards and modulation modes with versatile result display: I and Q signal, magnitude and phase, vector and constellation diagrams, spreadsheets with numeric evaluation of modulation errors and demodulated bit sequence
''