Manuais de utilizador para Agilent Technologies 22ET 8719ES

índice analítico

• Title Page

  1
• Documentation Map

  4
• Contents

  5
• 1 Making Measurements

  15
  • Using This Chapter

    16
  • More Instrument Functions Not Described in This Guide

    17
  • Making a Basic Measurement

    18
    • Step 1. Connect the device under test and any required test equipment.

      18
    • Step 2. Choose the measurement parameters.

      18
    • Step 3. Perform and apply the appropriate error-correction.

      19
    • Step 4. Measure the device under test.

      19
    • Step 5. Output the measurement results.

      20
  • Measuring Magnitude and Insertion Phase Response

    21
    • Measuring the Magnitude Response

      21
    • Measuring Insertion Phase Response

      22
  • Using Display Functions

    24
    • Titling the Active Channel Display

      25
    • Viewing Both Primary Measurement Channels

      26
    • Viewing Four Measurement Channels

      28
    • Customizing the Four-Channel Display

      31
    • Using Memory Traces and Memory Math Functions

      33
    • Blanking the Display

      35
    • Adjusting the Colors of the Display

      36
  • Using Markers

    38
    • To Use Continuous and Discrete Markers

      38
    • To Activate Display Markers

      39
    • To Move Marker Information Off the Grids

      40
    • To Use Delta (D) Markers

      42
    • To Activate a Fixed Marker

      43
    • To Couple and Uncouple Display Markers

      45
    • To Use Polar Format Markers

      46
    • To Use Smith Chart Markers

      47
    • To Set Measurement Parameters Using Markers

      48
    • Setting the CW Frequency

      52
    • To Search for a Specific Amplitude

      53
    • To Calculate the Statistics of the Measurement Data

      56
  • Measuring Electrical Length and Phase Distortion

    57
    • Measuring Electrical Length

      57
    • Measuring Phase Distortion

      59
  • Characterizing a Duplexer (ES Analyzers Only)

    63
    • Definitions

      63
    • Procedure

      63
  • Measuring Amplifiers

    66
    • Measuring Gain Compression

      67
    • Measuring Gain and Reverse Isolation Simultaneously (ES Analyzers Only)

      71
    • Making High Power Measurements with Option 085 (ES Analyzers Only)

      73
    • Making High Power Measurements with Option 012 (ES Analyzers Only)

      79
  • Using the Swept List Mode to Test a Device

    81
    • Connect the Device Under Test

      81
    • Observe the Characteristics of the Filter

      82
    • Choose the Measurement Parameters

      82
    • Calibrate and Measure

      84
  • Using Limit Lines to Test a Device

    86
    • Setting Up the Measurement Parameters

      86
    • Creating Flat Limit Lines

      87
    • Creating a Sloping Limit Line

      89
    • Creating Single Point Limits

      91
    • Editing Limit Segments

      92
    • Running a Limit Test

      93
    • Offsetting Limit Lines

      93
  • Using Ripple Limits to Test a Device

    95
    • Setting Up the List of Ripple Limits to Test

      95
    • Editing Ripple Test Limits

      98
    • Running the Ripple Test

      100
  • Using Bandwidth Limits to Test a Bandpass Filter

    106
    • Setting Up Bandwidth Limits

      106
    • Running a Bandwidth Test

      108
  • Using Test Sequencing

    112
    • How to Use Test Sequencing

      112
    • Creating a Sequence

      112
    • Running a Sequence

      114
    • Stopping a Sequence

      114
    • Editing a Sequence

      114
    • Clearing a Sequence from Memory

      116
    • Changing the Sequence Title

      117
    • Naming Files Generated by a Sequence

      117
    • Storing a Sequence on a Disk

      118
    • Loading a Sequence from Disk

      118
    • Purging a Sequence from Disk

      118
    • Printing a Sequence

      119
    • In-Depth Sequencing Information

      119
  • Using Test Sequencing to Test a Device

    128
    • Cascading Multiple Example Sequences

      128
    • Loop Counter Example Sequence

      129
    • Generating Files in a Loop Counter Example Sequence

      130
    • Limit Test Example Sequence

      132
• 2 Making Mixer Measurements (Option 089 Only)

  135
  • Using This Chapter

    136
  • Mixer Measurement Capabilities

    137
  • Measurement Considerations

    138
    • Minimizing Source and Load Mismatches

      138
    • Reducing the Effect of Spurious Responses

      139
    • Eliminating Unwanted Mixing and Leakage Signals

      140
    • How RF and IF Are Defined

      141
    • Frequency Offset Mode Operation

      143
    • LO Frequency Accuracy and Stability

      144
    • Differences Between Internal and External R Channel Inputs

      144
    • Power Meter Calibration

      146
  • Conversion Loss Using the Frequency Offset Mode

    147
    • Setting Measurement Parameters for the Power Meter Calibration

      148
    • Performing a Power Meter (Source) Calibration Over the RF Range

      149
    • Setting the Analyzer to Make an R Channel Measurement

      151
  • High Dynamic Range Swept RF/IF Conversion Loss

    154
    • Set Measurement Parameters for the IF Range

      154
    • Perform a Power Meter Calibration Over the IF Range

      154
    • Perform a Receiver Calibration Over the IF Range

      156
    • Set the Analyzer to the RF Frequency Range

      156
    • Perform a Power Meter Calibration Over the RF Range

      157
    • Perform the High Dynamic Range Measurement

      158
  • Fixed IF Mixer Measurements

    161
    • Tuned Receiver Mode

      161
    • Sequence 1 Setup

      161
    • Sequence 2 Setup

      166
  • Phase or Group Delay Measurements

    169
    • Phase Measurements

      169
    • Phase Linearity and Group Delay

      169
  • Amplitude and Phase Tracking

    173
  • Conversion Compression Using the Frequency Offset Mode

    174
  • Isolation Example Measurements

    179
    • LO to RF Isolation

      179
    • RF Feedthrough

      181
    • SWR / Return Loss

      184
• 3 Making Time Domain Measurements

  185
  • Using This Chapter

    186
  • Introduction to Time Domain Measurements

    187
  • Making Transmission Response Measurements

    189
  • Making Reflection Response Measurements

    193
  • Time Domain Bandpass Mode

    196
    • Adjusting the Relative Velocity Factor

      196
    • Reflection Measurements Using Bandpass Mode

      196
    • Transmission Measurements Using Bandpass Mode

      198
  • Time Domain Low Pass Mode

    199
    • Setting the Frequency Range for Time Domain Low Pass

      199
    • Reflection Measurements in Time Domain Low Pass

      200
    • Fault Location Measurements Using Low Pass

      202
    • Transmission Measurements in Time Domain Low Pass

      203
  • Transforming CW Time Measurements into the Frequency Domain

    206
    • Forward Transform Measurements

      206
  • Masking

    210
  • Windowing

    211
  • Range

    214
  • Resolution

    216
    • Response Resolution

      216
    • Range Resolution

      218
  • Gating

    219
    • Setting the Gate

      219
    • Selecting Gate Shape

      220
• 4 Printing, Plotting, and Saving Measurement Results

  221
  • Using This Chapter

    222
  • Printing or Plotting Your Measurement Results

    223
  • Configuring a Print Function

    224
  • Defining a Print Function

    226
    • If You Are Using a Color Printer

      226
    • To Reset the Printing Parameters to Default Values

      227
  • Printing One Measurement Per Page

    228
  • Printing Multiple Measurements Per Page

    229
  • Configuring a Plot Function

    230
    • If You Are Plotting to an HPGL/2 Compatible Printer

      230
    • If You Are Plotting to a Pen Plotter

      232
    • If You Are Plotting Measurement Results to a Disk Drive

      233
  • Defining a Plot Function

    235
    • Choosing Display Elements

      235
    • Selecting Auto-Feed

      235
    • Selecting Pen Numbers and Colors

      236
    • Selecting Line Types

      237
    • Choosing Scale

      237
    • Choosing Plot Speed

      238
    • To Reset the Plotting Parameters to Default Values

      238
  • Plotting One Measurement Per Page Using a Pen Plotter

    239
  • Plotting Multiple Measurements Per Page Using a Pen Plotter

    240
    • If You Are Plotting to an HPGL Compatible Printer

      241
  • To View Plot Files on a PC

    242
    • Using Ami Pro

      243
    • Using Freelance

      243
    • Converting HPGL Files for Use with Other PC Applications

      244
  • Outputting Plot Files from a PC to a Plotter

    244
  • Outputting Plot Files from a PC to an HPGL Compatible Printer

    245
    • Step 1. Store the HPGL initialization sequence.

      245
    • Step 2. Store the exit HPGL mode and form feed sequence.

      246
    • Step 3. Send the HPGL initialization sequence to the printer.

      246
    • Step 4. Send the plot file to the printer.

      246
    • Step 5. Send the exit HPGL mode and form feed sequence to the printer.

      246
  • Outputting Single Page Plots Using a Printer

    246
  • Outputting Multiple Plots to a Single Page Using a Printer

    247
  • Plotting Multiple Measurements Per Page from Disk

    248
    • To Plot Multiple Measurements on a Full Page

      249
    • To Plot Measurements in Page Quadrants

      250
  • Titling the Displayed Measurement

    252
  • Configuring the Analyzer to Produce a Time Stamp

    253
  • Aborting a Print or Plot Process

    253
  • Printing or Plotting the List Values or Operating Parameters

    254
    • If You Want a Single Page of Values

      254
    • If You Want the Entire List of Values

      254
  • Solving Problems with Printing or Plotting

    255
  • Saving and Recalling Instrument States

    256
    • Places Where You Can Save

      256
    • What You Can Save to the Analyzer's Internal Memory

      256
    • What You Can Save to a Floppy Disk

      257
    • What You Can Save to a Computer

      257
  • Saving an Instrument State

    258
  • Saving Measurement Results

    259
    • ASCII Data Formats

      261
    • Saving in Textual (CSV) Form

      264
    • Saving in Graphical (JPEG) Form

      266
    • Instrument State Files

      267
    • Saving Time Gated Frequency Data

      269
    • Differences between Raw, Data, and Format Arrays

      269
  • Re-Saving an Instrument State

    271
  • Deleting a File

    272
    • To Delete an Instrument State File

      272
    • To Delete all Files

      272
  • Renaming a File

    273
  • Recalling a File

    274
  • Formatting a Disk

    274
  • Solving Problems with Saving or Recalling Files

    275
    • If You Are Using an External Disk Drive

      275
• 5 Optimizing Measurement Results

  277
  • Using This Chapter

    278
  • Taking Care of Microwave Connectors

    279
  • Increasing Measurement Accuracy

    280
    • Interconnecting Cables

      280
    • Improper Calibration Techniques

      280
    • Sweeping Too Fast for Electrically Long Devices

      280
    • Connector Repeatability

      280
    • Temperature Drift

      281
    • Frequency Drift

      281
    • Performance Verification

      281
    • Reference Plane and Port Extensions

      281
  • Maintaining Test Port Output Power During Sweep Retrace

    283
  • Making Accurate Measurements of Electrically Long Devices

    284
    • The Cause of Measurement Problems

      284
    • To Improve Measurement Results

      284
  • Increasing Sweep Speed

    286
    • To Use Swept List Mode

      286
    • To Decrease the Frequency Span

      287
    • To Set the Auto Sweep Time Mode

      288
    • To Widen the System Bandwidth

      288
    • To Reduce the Averaging Factor

      288
    • To Reduce the Number of Measurement Points

      288
    • To Set the Sweep Type

      288
    • To View a Single Measurement Channel

      289
    • To Activate Chop Sweep Mode

      289
    • To Use External Calibration

      289
    • To Use Fast 2-Port Calibration (ES Analyzers Only)

      289
  • Increasing Dynamic Range

    291
    • Increase the Test Port Input Power

      291
    • Reduce the Receiver Noise Floor

      291
    • Reduce the Receiver Crosstalk

      291
  • Reducing Noise

    292
    • To Activate Averaging

      292
    • To Change System Bandwidth

      292
    • To Use Direct Sampler Access Configurations (Option 012 Only)

      293
  • Reducing Receiver Crosstalk

    294
  • Reducing Recall Time

    294
• 6 Calibrating for Increased Measurement Accuracy

  295
  • How to Use This Chapter

    296
  • Introduction

    297
  • Calibration Considerations

    298
    • Measurement Parameters

      298
    • Device Measurements

      298
    • Clarifying Type-N Connector Sex

      298
    • Omitting Isolation Calibration

      298
    • Saving Calibration Data

      299
    • Restarting a Calibration

      299
    • The Calibration Standards

      299
    • Frequency Response of Calibration Standards

      300
    • Interpolated Error Correction

      302
    • Error-Correction Stimulus State

      303
  • Procedures for Error Correcting Your Measurements

    304
    • Types of Error Correction

      304
  • Frequency Response Error Corrections

    306
    • Response Error Correction for Reflection Measurements

      306
    • Response Error Correction for Transmission Measurements

      308
    • Receiver Calibration

      309
  • Frequency Response and Isolation Error Corrections

    311
    • Response and Isolation Error Correction for Transmission Measurements

      311
    • Response and Isolation Error Correction for Reflection Measurements

      313
  • Enhanced Frequency Response Error Correction

    316
    • Enhanced Reflection Calibration

      319
  • One-Port Reflection Error Correction

    320
  • Full Two-Port Error Correction (ES Analyzers Only)

    323
  • Power Meter Measurement Calibration

    327
    • Loss of Power Meter Calibration Data

      327
    • Interpolation in Power Meter Calibration

      328
    • Entering the Power Sensor Calibration Data

      328
    • Compensating for Directional Coupler Response

      329
    • Using Sample-and-Sweep Correction Mode

      330
    • Using Continuous Correction Mode

      332
  • Calibrating for Noninsertable Devices

    334
    • Adapter Removal Calibration (ES Analyzers Only)

      335
    • Perform the 2-Port Error Corrections

      336
    • Verify the Results

      339
    • Matched Adapters

      339
    • Modify the Cal Kit Thru Definition

      340
  • Minimizing Error When Using Adapters

    341
  • Making Non-Coaxial Measurements

    342
    • Fixtures

      342
  • Calibrating for Non-Coaxial Devices (ES Analyzers Only)

    344
    • TRL Error Correction

      344
  • LRM Error Correction

    348
    • Create a User-Defined LRM Calibration Kit

      348
    • Perform the LRM Calibration

      350
  • Calibrating Using Electronic Calibration (ECal)

    352
    • Set Up the Measurement

      352
    • Connect the ECal Equipment

      353
    • Select the ECal Options

      354
    • Perform the Calibration

      356
    • Display the Module Information

      358
    • Perform the Confidence Check

      359
    • Investigating the Calibration Results Using the ECal Service Menu

      361
  • Adapter Removal Using ECal (ES Analyzers Only)

    363
    • Perform the 2-Port Error Corrections

      365
    • Determine the Electrical Delay

      367
    • Remove the Adapter

      368
    • Verify the Results

      369
• 7 Operating Concepts

  371
  • Using This Chapter

    372
    • Where to Find More Information

      372
  • System Operation

    373
    • The Built-In Synthesized Source

      373
    • The Built-In Test Set

      374
    • The Receiver Block

      374
    • The Microprocessor

      374
    • Required Peripheral Equipment

      374
  • Processing

    375
    • Processing Details

      376
  • Output Power

    379
    • Understanding the Power Ranges

      379
    • Power Coupling Options

      380
  • Sweep Time

    381
    • Manual Sweep Time Mode

      381
    • Auto Sweep Time Mode

      381
    • Minimum Sweep Time

      381
  • Source Attenuator Switch Protection

    383
    • Allowing Repetitive Switching of the Attenuator

      383
  • Channel Stimulus Coupling

    384
  • Sweep Types

    385
    • Linear Frequency Sweep (Hz)

      385
    • Logarithmic Frequency Sweep (Hz)

      385
    • Stepped List Frequency Sweep (Hz)

      385
    • Swept List Frequency Sweep (Hz)

      387
    • Power Sweep (dBm)

      389
    • CW Time Sweep (Seconds)

      389
    • Selecting Sweep Modes

      389
  • S-Parameters

    390
    • Understanding S-Parameters

      390
    • The S-Parameter Menu

      392
  • Analyzer Display Formats

    394
    • Log Magnitude Format

      394
    • Phase Format

      394
    • Group Delay Format

      395
    • Smith Chart Format

      396
    • Polar Format

      397
    • Linear Magnitude Format

      397
    • SWR Format

      398
    • Real Format

      399
    • Imaginary Format

      399
    • Group Delay Principles

      399
  • Electrical Delay

    403
  • Noise Reduction Techniques

    404
    • Averaging

      404
    • Smoothing

      405
    • IF Bandwidth Reduction

      405
  • Measurement Calibration

    407
    • What Is Accuracy Enhancement?

      407
    • What Causes Measurement Errors?

      408
    • Characterizing Microwave Systematic Errors

      411
    • How Effective Is Accuracy Enhancement?

      421
  • Calibration Routines

    424
    • Response Calibration

      424
    • Response and Isolation Calibration

      424
    • Enhanced Response Calibration

      424
    • S

      425
    • Full Two-Port Calibration (ES Models Only)

      425
    • TRL*/LRM* Two-Port Calibration

      425
    • E-CAL

      426
  • Modifying Calibration Kits

    427
    • Definitions

      427
    • Procedure

      428
    • Modify Calibration Kit Menu

      428
    • Verify Performance

      435
    • Saving Modified Calibration Kits to a Disk

      435
    • Modifying and Saving a Calibration Kit from the Calibration Kit Selection Menu

      436
  • TRL*/LRM* Calibration (ES Models Only)

    437
    • Why Use TRL Calibration?

      437
    • TRL Terminology

      438
    • How TRL*/LRM* Calibration Works

      438
    • Improving Raw Source Match and Load Match for TRL*/LRM* Calibration

      441
    • How True TRL/LRM Works (Option 400 Only)

      442
    • The TRL Calibration Procedure

      442
  • GPIB Operation

    448
    • Local Key

      448
    • GPIB STATUS Indicators

      449
    • System Controller Mode

      449
    • Talker/Listener Mode

      449
    • Pass Control Mode

      449
    • Address Menu

      450
    • Using the Parallel Port

      450
  • Limit Line Operation

    452
    • Edit Limits Menu

      453
    • Edit Segment Menu

      453
    • Offset Limits Menu

      453
  • Knowing the Instrument Modes

    454
    • Network Analyzer Mode

      454
    • Tuned Receiver Mode

      454
    • Frequency Offset Operation (Option 089)

      455
• 8 Safety and Regulatory Information

  457
  • General Information

    458
    • Maintenance

      458
    • Assistance

      458
    • Shipment for Service

      458
  • Safety Symbols

    460
  • Instrument Markings

    460
  • Safety Considerations

    461
    • Safety Earth Ground

      461
    • Before Applying Power

      461
    • Servicing

      462
    • General

      463
    • Compliance with German FTZ Emissions Requirements

      464
    • Compliance with German Noise Requirements

      464
    • Compliance with Canadian EMC Requirements

      464
  • Declaration of Conformity

    465
• Index

  467