SA Series

  • 9 kHz~40 GHz real-time spectrum analyzer/receiver;
  • Superheterodyne digital receiver architecture, 14 segments pre-selected filter;
  • Typical image suppression and IF rejection>75 dBc;
  • 100 MHz analysis bandwidth with adjustable sampling rate, 400 GHz/sec spectrum sweep speed;
  • FPGA based digital signal processing;
  • 40 GHz DANL=-141 dBm/Hz, Phase Noise=-86 dBc/Hz@10 kHz;
  • 9 kHz~20 GHz real-time spectrum analyzer/receiver
  • Superheterodyne digital receiver architecture, 19segments pre-selected filter
  • 9 kHz~9 GHz typical image suppression>90 dB, typical IF rejection>90 dB
  • 9 GHz~20 GHz typical image suppression>60 dB, typical IF rejection>90 dB
  • 100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
  • FPGA based digital signal processing
  • 9 kHz~9.5 GHz real-time spectrum analyzer/receiver
  • Superheterodyne digital receiver architecture, 14segments pre-selected filter
  • 9 kHz~9.5 GHz typical image suppression>90 dB, typical IF rejection>90 dB
  • 100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
  • FPGA based digital signal processing
  • 9 kHz~8.5 GHz real-time spectrum analyzer/receiver
  • Integrated 100 kHz-6.3 GHz analog signal generator (option)
  • 100MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
  • FPGA based digital signal processing
  • 9 kHz~6.3 GHz real-time spectrum analyzer/receiver
  • Integrated 100 kHz-6.3 GHz analog signal generator (option)
  • 100 MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
  • FPGA based digital signal processing
  • 9 kHz~6.3 GHz real-time spectrum analyzer
  • Integrated 100 kHz-6.3 GHz analog signal generator (option)
  • 25 MHz analysis bandwidth, 100 GHz/s sweep speed, FPGA signal processing
  • Typical phase noise: 1GHz carrier -110 dBc/Hz@10 kHz
  • Standard preamplifier, DANL: -162 dBm/Hz
  • 9 kHz~4.5/6.3 GHz real-time spectrum analyzer/receiver
  • Integrated 100 kHz-6.3 GHz analog signal generator (option)
  • Equipped with preamplifier, DANL: -160 dBm/Hz, residual response: -110dBm
  • Typical phase noise: -110 dBc/Hz@1 GHz 10 kHz offset
  • Bandwidth: 6.25 MHz, spectrum sweep speed> 20 GHz/s
  • 9 kHz-40 GHz real-time spectrum analyzer
  • Superheterodyne digital receiver architecture, 14 segments pre-selected filter
  • 9 kHz~40 GHz typical image suppression >75 dBc, typical IF rejection>75 dBc
  • 100 MHz analysis bandwidth with adjustable sampling rate, 291.6 GHz/sec sweep speed
  • FPGA based digital signal processing
  • 9 kHz-20 GHz real-time spectrum analyzer/receiver
  • Superheterodyne digital receiver architecture, 19 segments pre-selected filter
  • 9 kHz-9 GHz typical image suppression>90 dB, typical IF rejection>90 dB
  • 9 GHz~20 GHz typical image suppression>60 dB, typical IF rejection>90 dB
  • 100 MHz analysis bandwidth with adjustable sampling rate, 320.2 GHz/sec sweep speed
  • FPGA based digital signal processing
  • 9 kHz-9.5 GHz real-time spectrum analyzer/receiver
  • Superheterodyne digital receiver architecture, 14segments pre-selected filter
  • 9 kHz-9.5 GHz typical image suppression>90 dB, typical IF rejection>90 dB
  • 100 MHz analysis bandwidth with adjustable sampling rate, 330.9 GHz/sec sweep speed
  • FPGA based digital signal processing
  • 9 kHz-6.3 GHz real-time spectrum analyzer
  • Integrated 100 kHz-6.3 GHz analog signal generator (option)
  • DANL: -160 dBm/Hz, residual response: -110 dBm, equipped with preamplifier
  • 1GHz phase noise: -110 dBc/Hz@10 kHz offset
  • 6.25 MHz analysis bandwidth, 69 GHz/s spectrum sweep speed
  • 9 kHz-6.3 GHz real-time spectrum analyzer/receiver
  • Integrated 100 kHz-6.3 GHz analog signal generator (option)
  • 100MHz analysis bandwidth, 78 GHz/sec spectrum sweep speed
  • FPGA based digital signal processing
  • Frequency range: 9kHz to 20GHz
  • Superheterodyne receiver structure, 19-segment preselected filtering
  • Display average noise level as low as -168dBm/Hz, standard preamplifier
  • Spectrum scanning rate up to 900GHz/s (RBW≥300kHz)
  • Single sideband phase noise: -100 dBc/Hz @1GHz, 10kHz offset
  • Standard analysis bandwidth 100MHz