Agilent Technologies 8753ET, ES quick start Analyzer Front Panel

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Quick Start: Learning How to Make Measurements

Analyzer Front Panel

9.ACTIVE CHANNEL keys. The analyzer has four independent display channels. These keys allow you to select the active channel. Then any function you enter applies to this active channel. Notice that the light next to the current active channel’s key is illuminated.

10.The ENTRY block. This block includes the knob, the step keys, and the number pad. These allow you to enter numerical data and control the markers.

You can use the numeric keypad to select digits, decimal points, and a minus sign for numerical entries. You must also select a units terminator to complete value inputs.

11.INSTRUMENT STATE function block. These keys allow you to control channel-independent system functions such as the following:

•copying, save/recall, and GPIB controller mode

•limit testing

•tuned receiver mode

•frequency offset mode (Option 089)

•test sequence function

•harmonic measurements (Option 002)

•time domain transform (Option 010)

GPIB STATUS indicators are also included in this block.

12.Preset key. This key returns the instrument to either a known factory preset state, or a user preset state that can be deﬁned. Refer to the “Preset State and Memory Allocation” chapter in the Reference Guide for a complete listing of the instrument preset condition.

13.PROBE POWER connectors. These connectors (fused inside the instrument) supply power to an active probe for in-circuit measurements of AC circuits.

14.R CHANNEL connectors. (ES models only) These connectors allow you to apply an input signal to the analyzer's R channel, for frequency offset mode.

15.ES models only: PORT 1 and PORT 2. These ports output a signal from the source and receive input signals from a device under test. PORT 1 allows you to measure S12 and S11. PORT 2 allows you to measure S21 and S22.

ET models only: REFLECTION and TRANSMISSION. The REFLECTION port allows you to make reﬂection measurements, outputting a signal from the source and receiving input signals from a device under test. The TRANSMISSION port allows you to make transmission measurements, receiving input signals from a device under test.

2-4

Chapter 2

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Contents Part Number Print Date February Installation and Quick Start GuidePage Certiﬁcation General Safety Considerations How to Use This Guide Documentation Map Contents Installing Your Analyzer Introduction Verify the Shipment Item Number Part Number Description Analyzer Front Panel Familiarize Yourself with the Analyzer Front and Rear PanelsTest Sequence Analyzer Rear PanelMeet Electrical and Environmental Requirements Meet Electrical and Environmental Requirements Conﬁgure the Analyzer To Conﬁgure the Standard Analyzer To Conﬁgure the Analyzer with Printers or Plotters Plotter Port Conﬁgure the Analyzer Thinkjet Deskjet SET Clock To Conﬁgure the Analyzer for Bench Top or Rack Mount Use To Attach Front Handles to the Analyzer Standard Conﬁgure the Analyzer Conﬁgure the Analyzer Verify the Analyzer Operation To View the Installed Options To Initiate the Analyzer Self-Test To Run the Operators Check Service Menu TestsTrans FWD S21B/R or Transmissn To Test the Transmission ModeTo Test the Reﬂection Mode Back Up the Eeprom Disk Eeprom Backup Disk ProcedureDescription EquipmentBack Up the Eeprom Disk Quick Start Learning How to Make Measurements Quick Start Learning How to Make Measurements Analyzer Front Panel Analyzer Front PanelAnalyzer Front Panel Make a measurement calibration Measurement ProcedureMeasure the device Output measurement resultsLearning to Make Transmission Measurements Choose the following measurement settingsConnections for a Thru Calibration Standard Perform a measurement calibrationExample Measurement of Insertion Loss Press Return Define DISK-SAVE Example Measurement of 3 dB Bandwidth Measuring Other Transmission CharacteristicsLearning to Make Transmission Measurements Example Measurement of Out-of-Band Rejection Measuring Out-of-Band RejectionExample Measurement of Passband Flatness or Ripple Measuring Passband Flatness or Ripple= Γ Learning to Make Reﬂection Measurements= 1 + ρ / 1 − ρ Connections for Reﬂection Measurements Make a measurement calibration 10 Example Measurement of Return Loss Measuring Return Loss11 Example Measurement Title Measuring Reﬂection Coefﬁcient Measuring Other Reﬂection Characteristics13 Example Standing-Wave-Ratio Measurement Trace Measuring Standing Wave Ratio SWRMeasuring S11 and S22 or Reﬂection in a Polar Format Measuring Impedance 15 Example Impedance Measurement Trace 16 Example Admittance Measurement Trace Power-Up Problems If You Encounter a ProblemIf the analyzer display does not light If there is no RF signal at the front-panel port Data Entry ProblemsNo RF Output If You Encounter a Problem European Field Operations Agilent Technologies Sales and Service OfﬁcesIndex Index

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