HP 8753E Network Analyzer
Notice
Certification
Wmanty
Note
Maintenance
Assistance
for
Rw an@ assistance, wnmct gour nearest Hewlett-RzchmdSaks and Service Om
Shipment for Service
‘Iktble O-1. Hewlett-PackardSales and Service OfEces
Safety Symbols
Warning
Instrument Markings
General Safety Considerations
Caution
the external case parts. Do not attempt to clean internally
Compliance with German FTZ Emissions Requirements
Compliance with German Noise Requirements
Acoustic Noise Emission/Geraeuschemission
User’s Guide Overview
Network Analyzer Documentation Set
The User’s Guide
The Quick Reference Guide provides a summary of selected user features
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DECLARATION OF CONFORMITY
Manufacturer’s
Name:
Address:
Product Name:
Contents
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3.Making Mixer Measurements
4.Printing, Plotting, and Saving Measurement Results
5. Optimizing
6.Application and Operation Concepts
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7 . Specifications and Measurement Uncertainties
8.Menu Maps
9.Key Definitions
10. Error Messages
11. Compatible Peripherals
12.Preset State and Memory Allocation
A.The CITIfUe Data Format and Keyword Reference
B. Determining System Measurement Uncertainties
Index
Figures
Contents-18
Contents-19
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Contents-21
%bles
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HP 87533 Description and Options
Analyzer Description
nControl
Analyzer Programming Guide.)
nPerformance
l-2HP 5753E Description and Options
nAccuracy
w Printin& Plotting, and Saving
HP 5753E Description and Options l-3
Front Panel Features
Figure l-l.HP 8753E Front Panel
LINE switch
Display
Disk drive
HP 5753E Dessription and Options l-5
The ENTBY block
INSTBUMENT STATE function block
key
PROBE POWER
CHANNEL
a1D2pg64d
Figure 1-2.Analyzer Display (Single Channel, Cartesian Format)
Stimulus Start Value. This
HP 6753E Description and Options l-7
Stimulus Stop Value. This
Status Notations
Avg
Del
ext
PC
Network An.uZgm Semrice
PRltl
Smo
Active
Measured Input(s)
Format
Scale/Div
Reference Level
Marker Values
Rear Panel Features and Connectors
Figure 1-3.HP 8753E Bear Panel
PARALLEL interface
interface
KEYBOARD input
EXTERNAL BEF‘ElUINCE
AUXILIABY
connector
EXTERNAL AM connector
EXTERNAL
Analyzer Options Available
Option lD6, High Stability Frequency Reference
Option 002, Harmonic Mode
Option 006, 6 GHz Operation
Option 010, Time Domain
Option lCP, Rack Mount Flange Kit With Handles
Service and Support Options
Differences among the HP 8753 Network Analyzers
lhble l-l.Comparing the J3P 8753AIBKYD
HP 8753E Description and Options l-15
‘able 1-2.Comparing the HP 8753D and HP 8753E
l-16 HP 6763E Description and Options
Making Measurements
Principles of Microwave Connector Care
‘lhble 2-l.Connector Care Quick Reference
Basic Measurement Sequence and Example
Basic Measurement Sequence
Basic Measurement Example
Step 1. Connect the device under test and any required test equipment
test
Setting the Source Power
Setting the Measurement
Step 3. Perform and apply the appropriate error-correction
Caution
Step 4. Measure the device under test
Step 6. Output the measurement results
Using the Display Functions
To View Both Primary Measurement Channels
Figure 2-3.Example Dua.l Channel With Split Display On
2-6Making Measurements
To Save a Data Trace to the Display Memory
lb View the Measurement Data and Memory Trace
To Divide Measurement Data by the Memory Trace
To Subtract the Memory Trace from the Measurement Data Trace
2. press (jj ~~~ar~~~~, to subtract the memory from the measurement data
;;;;A.::....::.....,...:
‘RI Ratio Measurements in Channel 1 and
To Title the Active Channel Display
1. press (misplay) &&:: $&$ to access the title menu. ,... ..: i;: // ~.~./i
Figure 2-4.Example of a Display Title
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Figure 2-5. 3-ChannelDisplay
Figure 2-6. 4-ChannelDisplay
To Activate and Co&lgure the Auxilkry Channels
2-l2 Making Measurements
Quick Four-ParameterDisplay
Characterizing a Duplexer
nTransmit (TX)
Making Meesurements
Required Equipment
Procedure for Characterizing a Duplexer
8.Press @iLZiJ
2.14 Making Measurements
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Figure 2-7.Duplexer Measurement
Using Analyzer Display Markers
To Use Continuous and Discrete Markers
using
;m”
To Activate Display Markers
Figure 2-8.Active Marker Control Example
Figure 2-9.Active and Inactive Markers Example
2-l8 Making Measurements
!tb Move Marker Information off of the Grids
27; LoG
E2; LoG
Figure 2-10.Marker Information Moved into the Softkey Menu Area
trlllllllllll
Figure 2-11.Marker Information on the Graticules
lb Use Delta (A) Markers
2.20 Making Measurements
Figure 2-12.Marker 1 as the Reference Marker Example
lb Activate a Fixed Marker
Using the :~~~~~~~~~~~ Key to Activate a Fixed Reference Marker
2-22Making Measurements
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‘lb Couple and Uncouple Display Markers
Figure 2-15.Example of Coupled and Uncoupled Markers
To Use Polar Format Markers
2-24MaLinO Measurements
Figure 2-16. Example of a Log Marker in Polar Format
To Use Smith Chart Markers
Figure 2-17.Example of Impedance Smith Chart Markers
‘lb Set Measurement Parameters Using Markers
2-26Making Measurements
Setting the Start Frequency
Figure 2-18.Example of Setting the Staxt Frequency Using a Marker
Setting the Stop Frequency
Figure 2-19.Example of Setting the Stop Frequency Using a Marker
Setting the Center Frequency
Figure 2-20.Example of Setting the Center Frequency Using a Marker
2-28Making Measurements
Setting the Frequency Span
Figure 2-21. Example of Setting the Frequency Span Using Marker
Setting the Display Reference Viilue
Figure 2-22.Example of Setting the Reference Value Using a Marker
2-30Making Measurements
Setting the Electrical Delay
Figure 2-23.Example of Setting the Electrical Delay Using a Marker
Setting the CW Frequency
‘lb Search for a Specific Amplitude
Searching for the Maximum Amplitude
Searching for
Example of Searching for the Maximum Amplitude Using a Marker
232 Making Measurements
Searching for the Minimum Amplitude
Figure
Example of Searching for the Minimum Amplitude Using a Marker
Searching for a ‘beget Amplitude
Example of Searching for a Beget Amplitude Using a Marker
234 Making Measurements
Searching for a Bandwidth
Figure Z-27.Example of Searching for a Bandwidth Using Markers
Tracking the Amplitude that You Are Searching
To Calculate the Statistics of the Measurement Data
Figure Z-28.Example Statistics of Measurement Data
Measuring Magnitude and Insertion Phase Response
Measuring the Magnitude Response
Figure 2-29.Device Connections for Measuring a Magnitude Response
2-30
Figure 2-30.Example Magnitude Response Measurement Results
Measuring Insertion Phase Response
Figure 2-31.Example Insertion Phase Response Measurement
Figure 2-32.Phase Samples
Electrical Length
Phase Distortion
Measuring Electrical Length
Figure 2-33.Device Cmmections for Measuring Electrical Length
Figure 2-34.Linearly changing Phase
8. Press (-Ref)
ad turn the front panel knob to increase me ele&ricd
Figure 2-35.Example Best Flat Line with Added Electrical Delay
Measuring Phase Distortion
Deviation From Linear Phase
and
Figure 2-36.Deviation From Linear Phase Example Measurement
Group Delay
called
Figure 2-37.Group Delay Example Measurement
Figure 2-38.Group Delay Example Measurement with Smoothing
Group Delay Example Measurement with Smoothing Aperture Incrwed
Setting Up the Measurement Parameters
Figure 2-40.Connections for SAW Filter Example Measurement
Creating Flat Limit Lines
you codd alsO set the upper md lower limits by using the ~~~~~~~~~ md
Figure 2-41.Example Flat Limit Line
Creating a Sloping Limit Line
Figure 2-43.Sloping Limit Lines
Creating Single Point Limits
Figure 2-44.Example Single Points Limit Line
Deleting Limit Segments
Bnnning a Limit Tkst
Reviewing the Limit Line Segments
Activating the Limit Test
Offsetting Limit Lines
Figure 2-45.Example Stimulus Offset of Limit Lines
2-54 Making Measurements
(0)(b)
Figure 2-46.Diagram of Gain Compression
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Figure 2-48.Gain Compression Using Power Sweep
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Figure 2-49.Gain and Reverse Isolation
Stepped List Mode
Swept List Mode
Connect the Device Under Test
Figure 2-50.Swept List Measurement Setup
Observe the Characteristics of the Filter
Figure 2-51.Characteristics of a Filter
Choose the Measurement Parameters
Set Up the Lower Stopband Parameters
Calibrate and Measure
Figure Z-52.Calibrated Swept List Thru Measurement
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Typical test setup
Figure 2-54.Typical ‘I&t Setup for Tuned Receiver Mode
Tuned receiver mode in-depthdescription
Frequency Range
Compatible Sweep Types
External Source Requirements
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Figure 2-55.‘l&t Sequencing Help Instructions
Running a Sequence
Stopping a Sequence
Deleting Commands
5. press @j) ~~~~‘~~~~~~~~~ to &t the modify (e&t) mode
Modifying a Command
Clearing a Sequence from Memory
Changing the Sequence Title
new tiename, pressing ~~~~~~: as
Storing a Sequence on a Disk
Loading a Sequence from Disk
Purging a Sequence from Disk
Printing a Sequence
Cascading Multiple Example Sequences
SEQUENCESEQ2
Loop Counter Example Sequence
SEQUENCELOOP
Generating Files in a Loop Counter Example Sequence
Limit Test Example Sequence
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Measuring Swept Harmonics (Option 002 Only)
Figure 2-56.Fundamental and 2nd Harmonic Power Levels in dBm
Figure 2-57.2nd Harmonic Power Level in dBc
Gating
Transmission Response in Time Domain
near
Figure 2-58.Device Connections for Time Domain Transmission Example Measurement
Figure 2-59.Time Domain Transmission Example Measurement
Gating in a Time Domain Transmission Example Measurement
‘able 2-2.Gate Characteristics
Gate
Gate spfm
Fiiure 2-61.Gate Shape
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Reflection Response in Time Domain
Figure 2-63.Device Connections for Reflection Time Domain Example Measurement
Figure 2-64.Device Response in the Frequency Domain
Figure 2-65.Device Response in the Time Domain
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Making Mixer Measurements
Minimizing Source and Load Mismatches
Reducing the Effect of Spurious Responses
Eliminating Unwanted Mixing and Leakage Signals
How RF and IF Are Defined
Figure 3-l.Down Converter Port Connections
Figure 3-2.Up Converter Port Connections
Frequency Offset Mode Operation
Differences Between Internal and External R Channel Inputs
Figure 3-3.B Channel External Connection
Power Meter Calibration
measured output power (watts) /set input power (Watts)
measured output power (d&n) - set input power (dBm)
An Example Spectrum of RF, LO, and IF Signals Present in a
Conversion Loss Measurement
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range
Connections for a One-SweepPower Meter Calibration for Mixer Measurements
Figure 3-7.Diagram of Measurement Frequencies
Figure 3-8.Measurement Setup from Display
Figure 3-9.Conversion Loss Example Measurement
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Figure 3-10.Connections for Broad Band Power Meter Calibration
Figure 3-11.Connections for Eeceiver Calibration
Connections for a High Dynamic Range Swept IF Conversion Loss Measurement
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Tuned Receiver Mode
Sequence 1 Setup
addressing
Figure 3-14.Connections for a Response Calibration
Performing a Response Calibration
LMeas) ~~~~~~~~~, a
(jjj&Q
bOmpting
Mixer
&gg
.Y
Initializing a Loop Counter Value to
CaUing the Next Measurement Sequence
Sequence 2 Setup
Figure 3-15.Connections for a Conversion Loss Using the Tuned Receiver Mode
Figure 3-16.Example Fixed IF Mixer Measurement
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Figure 3-17.Counections for a Group Delay Measurement
Figure 3-18.Group Delay Measurement Example
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Conversion Loss and Output Power as a Function of Input Power Level Example
mixer’s
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Connections for the Second Portion of Conversion Compression Measurement
Figure 3-22.Measurement Setup Diagram Shown on Analyzer Display
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Figure 3-24.Signal Flow in a Mixer Example
LO to RF Isolation
Figure 3-26.Connections for a Mixer Isolation Measurement
Figure 3-27.Example Mixer ID to RF Isolation Measurement
RF Feedthrough
Making
Figure 3-28.Connections for a Response Calibration
Figure 3-29.Connections for a Mixer RF Feedthrough Measurement
Figure 3-30.Example Mixer RF Feedthrough Measurement
Printing, Plotting, and Saving Measurement Results
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Printing or Plotting Your Measurement Results
Conf@uring a Print Function
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Defining a Print Function
Printing One Measurement Per Page
Printing Multiple Measurements Per Page
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If Yim Are Plotting to a Pen Plotter
and then @ii. &g. Mti
.:...........i.. .,;::.::<<<<..<...:
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Defining a Plot Function
Choosing Display Elements
q Choose
.......i,,...::...aL
Selecting Auto-Feed
Plot
Element
modify
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Plotting One Measurement Per Page Using a Pen Plotter
Plotting Multiple Measurements Per Page Using a Pen Plotter
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Plotting a Measurement to Disk
To View Plot Files on a PC
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Outputting Plot Files from a PC to a Plotter
Outputting Plot Files from a PC to an HPGL Compatible Printer
Outputting Single Page Plots Using a Printer
c:
Outputting Multiple Plots to a Single Page Using a Printer
Plotting Multiple Measurements Per Page From Disk
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Titling the Displayed Measurement
Confqjuring the Analyzer to Produce a Time Stamp
Aborting a Print or Plot Process
Printing or Plotting the List Values or Operating Parameters
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Solving Problems with Printing or Plotting
Saving and Recalling Instrument States
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Saving an Instrument State
Saving Measurement Results
Deline Save ModificationFlexibility
II Dnring
your
appfiations except
S2P Data Format
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Re-Savingan Instrument State
Renaming a File
Formatting a Disk
Solving Problems with Saving or Recalling Files
Optimizing Measurement Results
Increasing Measurement Accuracy
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Measurement Error-Correction
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Compensating for the Electrical Delay of calibration Standards
Chrifyhg We-NConnector Sex
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Procedures for Error-CorrectingYour Measurements
Frequency Response Error-Corrections
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Frequency Response and Isolation Error-Corrections
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One-PortReflection Error-Correction
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Full Two-Port Error-Correction
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T&L* and T&M* Error-Correction
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Deleting Frequency Segments
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To Calibrate the Analyzer Receiver to Measure Absolute Power
Calibrating for Noninsertable Devices
Adapter Removal
Perform the Z-portError Corrections
Figure 5-12. ‘lko-PortCal Set
Remove the Adapter
15. Press ~~~~~~~~~~ to complete the technique for cd&ating the new errOr
Figure 5-14.Cklibrated Measurement
Verify the Results
Example Program
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Making Accurate Measurements of Electrically Long Devices
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Application and Operation Concepts
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Accuracy
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TRL*/LRM* Two-PortCalibration
Restarting a Calibration
Cal Kit Menu
The Select Cal Kit Menu
Modifying Calibration Kits
Definitions
Procedure
Modify Calibration Kit Menu
TIhble 6-5.Standard DelInitions
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‘Ihble 6-6.Slamlard Class Assignments
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Verify performance
TRL%RM* Calibration
Why Use TRL Calibration
TRL lkrminology
How !CRL*/LRM* Calibration Works
TRL* Error Model
HP 8753E functional block diagram for a 2-port error-corrected
measurement system
IsoIation
If an isolation calibration is performed, the ikture leakage must be the
same during the isolation calibration and the measurement
Figure 6-53. S-termTRL error model and generalized coefkients
Improving Raw Source Match and Load Match For TRL*/LRM* Calibration
Figure 6-54.Typical Measurement Set up
TRL Standards
Requirements
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Note Dispersion Effects
Power Meter Calibration
‘I& p~~~~~~;‘:~.~ softkey with the come-$ionmenu, leads to a series of menus
Primary Applications
Calibrated Power Level
Compatible Sweep Types
Loss of Power Meter Calibration Data
changing sweep type
Chaugiug frequency
Interpolation in Power Meter Calibration
Power Meter Calibration Modes of Operation
Figure 6-55.‘I&t Setup for Continuous Sample Mode
be as
Figure 6-56.‘I&t Setup for Sample-and-SweepMode
Power Loss Correction List
Power Sensor Calibration Factor List
SpeedandAccuracy
‘able
Characteristic Power Meter Calibration Sweep Speed and Accuracy
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Alternate and Chop Sweep Modes
Chop
Figure 6-57.Alternate and Chop Sweeps Overlaid
Matched Adapters
Modify the Cal Kit Thru Definition
Using the Instrument State Functions
Figure 6-58.Instrument State Function Block
HP-IBMenu
HP-IBSTATUS Indicators
System Controller Mode
Pass Control Mode
Address Menu
./:::: ;..:: ::.;..i: .::::::
Instrument
BP-IBAddress
(decimal)
Using the Parallel Port
The Copy Mode
The Limits Menu
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Knowing the Instrument Modes
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CW Frequency
External Source Mode
Compatible Sweep Types
External Source Requirements
Capture
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Figure 6-60.Typical ‘l&t Setup for a Frequency Offset Measurement
Offset
In-Depth
The Receiver Frequency. You
ORset Frequency
Receiver and Source Requirements
Display Annotations. The
Spurious Signal Passband Frequencies
Figure 6-61.Typical Harmonic Mode ‘I&t Setup
and see
use
‘lhble 6-9.Maximum Fundamental Frequency using Harmonic Mode
HarmolliC bhximum Fundamental Frequency
Accuracy
Time Domain Operation (Option 010)
The Transform Menu
step mode
Forward
mode
General Theory
Figure 6-62.Device Frequency Domain and Time Domain Reflection Responses
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Figure 6-63.A Reflection Measurement of Two Cables
‘I&ble 6-10.Time Domain Reflection Formats
Transmission Measurements Using Bandpass Mode
Figure 6-64.Transmission Measurement in Time Domain Bandpass Mode
domain low
‘Ibble 6-11.Minimum Frequency Ranges for Time Domain Low Pass
Reflection Measurements In Time Domain Low Pass
Time Domain Low Pass Measurements of an Unterminated Cable
Interpreting the low pass response vertical
Fault Location Measurements Using Low Pass
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Figure 6-67.Low Pass Step Measurements of Common Cable Faults (Real Format)
Time Domain Low Pass Measurement of an Amplifier Small Signal
Transient Response
Figure 6-69.Transmission Measurements Using Low Pass Impulse Mode
Time Domain Concepts
Masking
Figure 6-70.Masking Example
Figure 6-71.Impulse Width, Sidelobes, and Windowing
able 6-12.Impulse Width, Sidelobe Level, and Windowing Values
mge
Response resolution
Figure 6-73.Response Resolution
Range resolution
Figure 6-74.Range Resolution of a Single Discontinuity
Figure 6-75.Sequence of Steps in Gating Operation
Figure 6-76.Gate Shape
Selecting gate shape
‘able 6-13.Gate Characteristics
Transforming CW Time Measurements Into the Frequency Domain
Forward Transform Measurements
Figure 6-77.Ampltier Gain Measurement
Figure 6-78.Combined Effects of Amplitude and Phase Modulation
Separating the Amplitude and Phase Components of Test-Device-InducedModulation
Forward transform
Figure 6-80.Range of a Forward Transform Measurement
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Type of Command
Size in Bytes
The Sequencing Menu
Gosub Sequence Command
TI’L I/O Menu
you
Figure 6-81.Parallel Port Input and Output Bus Pin Locations in GPIO Mode
Sequencing Special Functions Menu
Sequence Decision Making Menu
Decision Making Functions
Naming Files Generated by a Sequence
HP-GL
Plot absolute (HP-GLcommand: PA)
Label (HP-GLcomman& Ia)
Amplifier Tksting
Amplifier parameters
Figure 6-82.Amplifier Parameters
Swept Frequency Amplifier Measurement of Absolute Fundamental, 2nd and 3rd
Earmonic Output Levels
Swept Frequency AmpHer Measurement of 2nd and 3rd Harmonic Distortion (dBc)
Gain Compression
Figure 6-85.Diagram of Gain Compression
Swept Power Measurement of Amplifier’s Fundamental Gain Compression and 2nd
Harmonic Output Level
Metering the power level
list Configuration for Setting RF Input using Automatic Power Meter Calibration
Mixer Testing
Frequency Offset
Tuned Receiver
Mixer Parameters That You Can Measure
Figure 6-88. Mixer hrameters
Accuracy Considerations
and LO signals
Attenuation at Mixer Ports
Conversion Loss versus Output Frequency Without Attenuators at
Mixer Ports
Example of Conversion Loss versus Output Frequency Without Correct
IF Signal Path Filtering
Example of Conversion Loss versus Output Frequency With Correct IF
Signal P&&I Filtering and Attenuation at all Mixer Ports
Selection
Figure 6-92. Examples of Up Converters and Down Converters
Figure 6-93.Down Converter Port Connections
Figure 6-94.Up Converter Port Connections
Conversion Loss
Isolation
Figure 6-96.Main Isolation ‘lkrms
LOFeedthru/LOtoRFLedage
SWR / Return Loss
Conversion Compression
(a)
Figure 6-97.Conversion Loss and Output Power as a Function of Input Power Level
Phase Measurements
Amplitude and Phase Tracking
Connections for an Amplitude and Phase Tracking Measurement Between Two Mixers
Phase Linearity and Group Delay
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Connection Considerations
Adapters
Figure 6-99.Adapter Considerations
Fixtures
Reference Documents
General Measurement and Calibration Techniques
Fixtures and Non-CoaxialMeasurements
On-WaferMeasurements
Specifkations and Measurement Uncertainties
HP 8753E Measurement Port Specifications
HP 8763E (6OQ) with 7-mmTest Ports
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HP 8763E (SO@ with Type-NTest Ports
Port
HP 8763E (SO@W with 3.6~mm Test Ports
HP 8763E (76Q) with Type-NTest Ports
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HP 8763E (7612) with Type-FTest Ports
Instrument Spectications
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HP 8763E Network Analyzer General Characteristics
Measurement Throughput Summary
Interface
Transfer Formats
Interface Function Codes
External Reference Frequency Input (EXT REF INPUT)
High-StabilityFrequency Reference Output (10 MHz)(Option lD6)
External Auxilhry Input (AUX INPUT)
External AM Input (EXT AM)
External Trigger (EXT TRIGGER)
Figure 7-1.External Trigger Circuit
Test Sequence Output (TEST SEQ)
Red, Green, or Blue Pixels Speciiications
Dark Pixels Specifications
HP-IB
General Conditions
Operating Conditions
Non-OperatingStorage Conditions
Weight
Cabinet Dimensions
Internal Memory
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---B
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Key Definitions
Guide Tkrms and Conventions
Analyzer Functions
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HP 8753E Programmer’s Guide
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‘Bible 9-1.Cross Reference of Key Function to Programming Command
Name
Command
MEASA
‘lhble
Cross Reference of Key Function to Progranuningcommand (continued)
ANAB
ANAI
Cross Reference of Key Function to Programm ingchmmand (continued)
(GJ
‘lhble 9-l
Cross Reference of Key Function to Programming Co nuuand (continued)
Cmunmnd
m4HEH
t%4
Cross Reference of Key Function to Programming command (continued)
Chumand
gvm% fiow cpmm
.J?lZAXJ.LT CXtLUH
.X&FAlJ&t
able
Cross Reference of Key Function to Programming Command (continued)
MARKF-AUV
‘able 9-l
Cross Reference of Key Function to Progranuuing commund (continued)
OFFlPon #iv
BLAlflf
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Ihble
cross Reference of Key Function to Programming Command (continued)
‘Ihble
Cmumand
OFLS
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‘fhble
Cross Reference of Key Function to Programm ingbmmand (continued)
Value
l%lzwm~E & ..f%2L’N
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Cross Reference of Key Function to Programming Commaud (continued)
Q?Y
Caumand
Cross Reference of Key Function to Programming commund (continued)
Comnumd
l’&ble
Cross Reference of Key Function to Programmingco mmand (continued)
SEATARG
lhble
Cross Reference of Key Function to Programming Co nunand (continued)
Cross Reference of Key Function to Programmiug Command (continued)
Couuuamd
YELLOW
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Error Messages
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Error
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Number
Compatible Peripherals
Verification Kit
HP 86029B 7-mmVerifkation Kit
Test Port Return Cables
HP 11867D 7-mml&t Port Return Cable Set
HP 11867B 75 Ohm Type-NTest Port Return Cable Set
Transistor Test Fixtures
HP 11600B and 11602B lkansistor Fixtures
HP 11608A Option 003 Transistor Fixture
HP 11868A Transistor Fixture Adapter
Power Limiters
System Cabinet
System Testmobile
Plotters and Printers
These plotters are compatible:
These printers are compatible:
Mass Storage
HP-IBCables
Interface Cables
Keyboards
‘Ihble 1 l-l.Keyboard ‘lkmplate Definition
Analyzer Function
Keyboaxd
Kety Name
Controller
Sample Software
External Monitors
I&commended Color Monitors:
External Monitor Requirements:
Connecting the Peripheral Device
Figure 11-l.Peripheral Connections to the Analyzer
If the Peripheral is a Printer
If the Peripheral Is a Plotter
HPGIA Compatible Printer (used as a plotter)
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HP 87533 Network Anulgzer Programmer’s tii&
Desrription of the
Hewlett-Rzckurd
Intefface
Condensed Lbcription of the
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HP 87533 Network Analyzer Programmer’s
Programmer’s
Preset State and Memory Allocation
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The CITIfile Data Format and Keyword Reference
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Determining System Measurement Uncertainties
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Index