Spectrum analyzers measure the magnitude versus the frequency of an input signal. From this data, the harmonics, distortion, power, and bandwidth of the input signal can be measured.

Signal generators can output various waveforms that are used for test scenarios. These waveforms are sent to the electronic device and their behaviour is observed.

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Rigol RSA3000 Series – Real-Time Spectrum Analyzers

  • Frequency: 1.5 – 4.5 GHz
  • Displayed average noise level (DANL): <-161 dBm (typical)
  • Phase noise: <-102 dBc/Hz (typical)
  • 1 Hz Minimum Resolution Bandwidth
  • 3 GHz or 4.5 GHz tracking generator (select models)
  • Up to 40 MHz real-time analysis bandwidth

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Rigol RSA5000 Series – Real-Time Spectrum Analyzers

  • Frequency: 3.2 – 6.5 GHz
  • Displayed average noise level (DANL): <-165 dBm (typical)
  • Phase noise: <-108 dBc/Hz (typical)
  • 1 Hz Minimum Resolution Bandwidth
  • Up to 40 MHz real-time analysis bandwidth
  • 6.5 GHz tracking generator (select models)

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Rigol DSA700 Series – Spectrum Analyzers

  • Frequency Range from 100 kHz up to 1 GHz
  • Min. -130 dBm Displayed Average Noise Level (Typ.)
  • Min. <-80 dBc/Hz @ 10 kHz Offset Phase Noise
  • 100 Hz Minimum Resolution Bandwidth

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Rigol DSA800 Series – Spectrum Analyzers

  •  Frequency Range from 9 kHz up to 7.5 GHz
  • Min. -161 dBm Displayed Average Noise Level (Typ.)
  • Min. < -98 dBc/Hz @ 10 kHz Offset Phase Noise
  • 10 Hz Minimum Resolution Bandwidth

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Rigol DSG3000B Series – RF Signal Generators

  • Maximum Frequency of 6.5- 13.6 GHz
  • Up to -116 dBc/Hz (typical) phase noise
  • Up to +23 dBm (typical) maximum output power
  • Higher level of amplitude accuracy, up to 0.5 dB (typical)

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Rigol DSG800 Series – RF Signal Generators

  • Maximum Frequency of 1.5- 3.6 GHz
  • Up to -112 dBc/Hz (typical) phase noise
  • Up to +20 dBm (typical) maximum output power
  • Higher level of amplitude accuracy, up to 0.5 dB (typical)

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Yokogawa FG400 – Isolated Arbitrary/ Function Generator

  • High accuracy ±(0.05% of full scale)
  • Excellent stability provided by silicon resonant sensor
  • Low temperature coefficient
  • Zero point: ±0.003% of full scale/°C Span: ±0.002% of full scale/°C
  • Divided output function with as many as 20 steps
  • Autostep output function
  • Sweep output function
  • Offset monitor function to present deviation from final value