Agilent E5052B Signal Source Analyzer 10 MHz to 7 GHz, 26.5 GHz ...
Agilent E5052B Signal Source Analyzer 10 MHz to 7 GHz, 26.5 GHz ...
Agilent E5052B Signal Source Analyzer 10 MHz to 7 GHz, 26.5 GHz ...
- No tags were found...
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
Phase Noise Measurement – cont’d<strong>E5052B</strong> SSB-PN Sensitivity<strong>E5052B</strong>-011 SSB-PN SensitivitySSB phase noise [dBc/Hz]–40–50–60<strong>10</strong> <strong>MHz</strong>–70<strong>10</strong>0 <strong>MHz</strong>–801 <strong>GHz</strong>–90–<strong>10</strong>0–1<strong>10</strong>–120–130–140–150–160–170–180–190–2001 <strong>10</strong> <strong>10</strong>0 1k <strong>10</strong>k <strong>10</strong>0k 1M <strong>10</strong>M <strong>10</strong>0MSSB phase noise [dBc/Hz]–40–50–60<strong>10</strong> <strong>MHz</strong>–70<strong>10</strong>0 <strong>MHz</strong>–801 <strong>GHz</strong>–90–<strong>10</strong>0–1<strong>10</strong>–120–130–140–150–160–170–180–190–2001 <strong>10</strong> <strong>10</strong>0 1k <strong>10</strong>k <strong>10</strong>0k 1M <strong>10</strong>M <strong>10</strong>0MOffset frequency [Hz]Offset frequency [Hz]Figure 1-1. SSB phase noise sensitivity (<strong>E5052B</strong>, SPD) (LO < 150 kHzoptimized, +5 dBm input, start offset frequency = 1 Hz, measurement time =12.9 sec.)Figure 1-2. SSB phase noise sensitivity (<strong>E5052B</strong> Option 011, SPD)(LO < 150 kHz optimized, +5 dBm input, start offset frequency = <strong>10</strong> Hz, measurementtime = 3.3 sec.)<strong>E5052B</strong> SSB-PN Sensitivity Improvement by Correlation @1 <strong>GHz</strong><strong>E5052B</strong> SSB-PN Sensitivity Change by L.O. Phase Optimization @1 <strong>GHz</strong>SSB phase noise [dBc/Hz]–40–50–60corr. = 1–70corr. = <strong>10</strong>–80corr. = <strong>10</strong>0–90–<strong>10</strong>0–1<strong>10</strong>–120–130–140–150–160–170–180–190–2001 <strong>10</strong> <strong>10</strong>0 1k <strong>10</strong>k <strong>10</strong>0k 1M <strong>10</strong>M <strong>10</strong>0MSSB phase noise [dBc/Hz]–40–50–60< 150 kHz opt.–70> 150 kHz opt.–80–90–<strong>10</strong>0–1<strong>10</strong>–120–130–140–150–160–170–180–190–2001 <strong>10</strong> <strong>10</strong>0 1k <strong>10</strong>k <strong>10</strong>0k 1M <strong>10</strong>M <strong>10</strong>0MOffset frequency [Hz]Offset frequency [Hz]Figure 1-3. SSB phase noise sensitivity improvement by correlation(<strong>E5052B</strong>, SPD) (carrier 1 <strong>GHz</strong>, LO < 150 kHz optimized, +5 dBm input, start offsetfrequency = 1 Hz)Figure 1-4. SSB phase noise change by LO optimization (SPD)(carrier 1 <strong>GHz</strong>, +5 dBm input, start offset frequency = 1 Hz, reference oscilla<strong>to</strong>r:narrowband)Spectrum Moni<strong>to</strong>r Measurement–70<strong>E5052B</strong> SSB-PN Sensitivity Change by Reference Oscilla<strong>to</strong>r Bandwidth @<strong>10</strong>0 <strong>MHz</strong>Table 2-1. Spectrum moni<strong>to</strong>r performanceDescriptionRF frequency rangeMoni<strong>to</strong>ring spanRBWMeasurement parametersAbsolute measurement uncertaintyRelative measurement uncertaintyResidual noise fl oorMeasurement triggerSpecification<strong>10</strong> <strong>MHz</strong> <strong>to</strong> 7 <strong>GHz</strong>15 <strong>MHz</strong> maximum with linear scale1.53 Hz <strong>to</strong> 400 kHzdBm, dBV, watt, volt,–dBm/Hz, dBV/Hz, watt/Hz, V/√Hz± 2 dB typical @ –<strong>10</strong> dBm (att. = <strong>10</strong> dB)± 1.5 dB (–60 dBm <strong>to</strong> –<strong>10</strong> dBm, ratio)–95 dBm typical @ RBW = 24.4 Hzsame as Phase Noise3 phase noise [dBc/Hz]–80Narrow–90Wide–<strong>10</strong>0–1<strong>10</strong>–120–130–140–150–160–1701 <strong>10</strong> <strong>10</strong>0 1k <strong>10</strong>k <strong>10</strong>0k 1M <strong>10</strong>M <strong>10</strong>0MOffset frequency [Hz]Figure 1-5. SSB phase noise sensitivity change by Reference Oscilla<strong>to</strong>rBandwidth (SPD) (carrier <strong>10</strong>0 <strong>MHz</strong>, +5 dBm input, start offset frequency = 1 Hz,LO optimization: < 150 kHz)5
Change language