Agilent Technologies 11970-90031 Signal Identification, Store and correct for conversion loss

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Operation

Using the Mixers with the 856X Series Spectrum Analyzers

Figure 2-10 Store and correct for conversion loss.

The second method for storing conversion-loss information lets you save individual conversion-loss data points at specific intervals across the harmonic band, using CNV LOSS VS FREQ.

To view or enter a conversion-loss data point:

a.Press CNV LOSS VS FREQ.

b.Enter the conversion-loss data at the frequency shown.

c.Use the step up ⇑ key to step through the band, entering the conversion loss at each step.

Signal Identification

5.The IF output of a harmonic mixer contains many mixer products (frequencies of LO ± source, 2LO ± source, 3LO ± source…nLO ± source). As a result, within a single harmonic band, a single input signal can produce many responses, only one of which is valid.

These responses come in pairs, where the members of the valid pair are spaced 621.4 MHz apart (see Figure 2-11) and the right-most member for the pair is the correct response (for this analyzer, the left member of a pair is not valid).

Operation

Chapter 2

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Contents October Manufacturing Part NumberCertification Limitation of Warranty Page Contents Service General Information Serial Numbers IntroductionSeries Harmonic Mixers Mixer Connection Kit, Option Waveguide Connector Screws Specifications11970 Series Specifications LO Harmonic Number LO Input Frequency Range Model RF Frequency Range 11970 Supplemental Characteristics Specifications Operation Introduction Operating PrecautionsMixer Connections Getting StartedGetting Started Viewing Data Loading DataHarmonic Mixer Setup Set up the equipmentManually Entering Conversion-Loss Data Amplitude CalibrationSignal Identification Chapter Spectrum Analyzer Amplitude Calibration Signal Identification AYZ External Mixer Setup Using the Mixers with the 856X Series Spectrum AnalyzersExternal Mixer Frequency Ranges Select the Frequency BandSelect the band of interest Save the average conversion-loss value10 Store and correct for conversion loss Signal Identification11 Signal Responses Produced by a 50 GHz Signal in U Band Identify signals with the frequency-shift method12 Response for Invalid Signals 14 SIG ID AT MKR Performed on an Image Signal Identify signals in wide frequency spans15 SIG ID AT MKR Performed on a True Signal Using the Mixers with MMS Analyzers Preliminary OperationEquipment Connection Operation Band SelectionAmplitude Calibration for a Single Frequency Band Harmonic Number N Frequency Range GHz External Mixing Bands and Associated Mixing HarmonicsSets 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 17External Mixer Connection Using the Mixers with the 8566B Spectrum AnalyzerAmplitude Calibration ProcedureSignal Identification 19 Sample Mixer Calibration Table Performance Tests Test Record Performance Test Procedures DescriptionRecommended 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 Conversion Loss and Frequency Response SpecificationsDescription 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 Average Noise Level Test SpecificationAverage Noise Level Test For 11970V or W Average Noise Level Test Average Noise Level Average Noise Test RecordService Repairs MaintenanceReplaceable Parts Circuit Description11970 Series Mixer Schematic Diagram Part Number Description Accessories and Replaceable PartsEuropean Field Operations Agilent Technologies Sales and Service OfficesMaintenance