Agilent Technologies 11970-90031 manual Identify signals with the frequency-shift method

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Operation

Operation

Using the Mixers with the 856X Series Spectrum Analyzers

Figure 2-11 Signal Responses Produced by a 50 GHz Signal in U Band

Identify signals with the frequency-shift method

6.Signal-identification routines that identify the signal and images are available on instruments with firmware revisions ≤ 920528, or with Option 008. The frequency-shift method of identifying valid signals uses the spectrum-analyzer function SIG ID ON OFF. When using this function, smaller spans will yield more accurate measurements.

a.Span down to 50 MHz.

b.Press AUX CTRL, EXTERNAL MIXER, SIGNAL IDENT.

c.Press SIG ID ON OFF until ON is selected.

Any signal not produced by the currently selected harmonic will be shifted horizontally on alternate sweeps (see Figure 2-12). Therefore, when viewing the display, on alternate sweeps the signal will appear, then not appear, at the frequency of interest. The correct signal produced by the selected harmonic will be shifted in a vertical direction only, as shown in Figure 2-13.

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Contents Manufacturing Part Number OctoberCertification Limitation of Warranty Page Contents Service General Information Introduction Serial NumbersSeries Harmonic Mixers Mixer Connection Kit, Option Specifications Waveguide Connector Screws11970 Series Specifications LO Harmonic Number LO Input Frequency Range Model RF Frequency Range 11970 Supplemental Characteristics Specifications Operation Operating Precautions IntroductionGetting Started Mixer ConnectionsGetting Started Loading Data Viewing DataSet up the equipment Harmonic Mixer SetupAmplitude Calibration Manually Entering Conversion-Loss DataSignal Identification Chapter Spectrum Analyzer Amplitude Calibration Signal Identification AYZ Using the Mixers with the 856X Series Spectrum Analyzers External Mixer SetupSelect the Frequency Band External Mixer Frequency RangesSave the average conversion-loss value Select the band of interestSignal Identification 10 Store and correct for conversion lossIdentify signals with the frequency-shift method 11 Signal Responses Produced by a 50 GHz Signal in U Band12 Response for Invalid Signals Identify signals in wide frequency spans 14 SIG ID AT MKR Performed on an Image Signal15 SIG ID AT MKR Performed on a True Signal Preliminary Operation Using the Mixers with MMS AnalyzersEquipment Connection Band Selection OperationAmplitude Calibration for a Single Frequency External Mixing Bands and Associated Mixing Harmonics Band Harmonic Number N Frequency Range GHzSets which active input port will be selected when the Instr Frequency Ranges and Corresponding Harmonic Numbers Conversion Loss Versus Frequency Correction For further information, consult the Agilent 70900B Using the Mixers with the 8566B Spectrum Analyzer 17External Mixer ConnectionProcedure Amplitude CalibrationSignal Identification 19 Sample Mixer Calibration Table Performance Tests Test Record Description Performance Test ProceduresRecommended Test Equipment for 11907K Recommended Test Equipment for 11970A Recommended Test Equipment for 11970Q Recommended Test Equipment for 11970U Recommended Test Equipment for Recommended Test Equipment for 11970W Specifications Conversion Loss and Frequency ResponseDescription 11970V 50.0 GHz 11970W 75.0 GHz For 11970V or W Then press Center Frequency Conversion Loss and Frequency Response Conversion Loss and Frequency Response Performance Test Setups 1 Performance Test Setups 2 Conversion Loss and Frequency Response Test Record Conversion Loss and Frequency Response Test Record Specification Average Noise Level TestAverage Noise Level Test For 11970V or W Average Noise Level Test Average Noise Test Record Average Noise LevelService Replaceable Parts MaintenanceRepairs Circuit Description11970 Series Mixer Schematic Diagram Accessories and Replaceable Parts Part Number DescriptionAgilent Technologies Sales and Service Offices European Field OperationsMaintenance