Agilent 8719ES Installation and Quick Start Guide

Installation and Quick Start Guide

HP 8719ET/ES
HP 8720ET/ES
HP 8722ET/ES

Network Analyzers

HP Part Number: 08720-90391

Printed in USA

Print Date: August 1999

Notice

The information contained in this document is subject to change without notice.
Hewlett-Packard makes no warranty of any kind with regard to this material, including

but not limited to, the implied warranties of merchantability and fitness for a particular
purpose. Hewlett-Packardshallnot be liable for errors contained herein or for incidental or
consequential damages in connection with the furnishing, performance, or use of this
material.

© Copyright 1999 Hewlett-Packard Company

ii

Certification

Hewlett-Packard Company certifies that this product met its published specifications at
the time of shipment from the factory. Hewlett-Packard further certifies that its
calibration measurements are traceable to the United States National Institute of
Standards and Technology, to the extent allowed by the Institute's calibration facility, and
to the calibration facilities of other International Standards Organization members.

Regulatory and Warranty Information

The regulatory and warranty information is in the User's Guide.

Assistance

Product maintenance agreements and other customer assistance agreements are available
for Hewlett-Packard products. For any assistance, contact your nearest Hewlett-Packard
sales or service office. See Table 2-1 on page 2-26 for the nearest office.

Safety Notes

The following safety notes are used throughout this manual. Familiarize yourself with
each of the notes and its meaning before operating this instrument.

WARNING Warning denotes a hazard. It calls attention to a procedure which, if

not correctly performed or adhered to, could result in injury or loss
of life. Do not proceed beyond a warning note until the indicated
conditions are fully understood and met.

CAUTION Caution denotes a hazard. It calls attention to a procedure that, if not

correctly performed or adhered to, would result in damage to or destruction of
the instrument. Do not proceed beyond a caution sign until the indicated
conditions are fully understood and met.

iii

General Safety Considerations

SOFTKEY

WARNING For continued protection against fire hazard replace line fuse only

with same type and rating (3A/250V). The use of other fuses or
material is prohibited.

WARNING This is a Safety Class I product (provided with a protective earthing

ground incorporated in the power cord). The mains plug shall only
be inserted in a socket outlet provided with a protective earth
contact. Any interruption of the protective conductor, inside or
outside the instrument, is likely to make the instrument dangerous.
Intentional interruption is prohibited.

CAUTION Ventilation Requirements: When installing the instrument in a cabinet,

the convection into and out of the instrument must not be restricted. The
ambient temperature (outside the cabinet) must be less than the maximum
operating temperature of the instrument by 4 °C for every 100 watts
dissipated in the cabinet. If the total power dissipated in the cabinet is
greater than 800 watts, then forced convection must be used.

How to Use This Guide

This guide uses the following conventions:

Front-Panel Key

Screen Text This represents text displayed on the instrument’s screen.

iv

This represents a key physically located on the
instrument.

This represents a “softkey,” a key whose label is
determined by the instrument’s firmware.

Documentation Map

The Installation and Quick Start Guide provides procedures for
installing, configuring, and verifying the operation of the analyzer. It
also will help you familiarize yourself with the basic operation of the
analyzer.

The User’s Guide shows how to make measurements, explains
commonly-used features, and tells you how to get the most
performance from your analyzer.

The Reference Guide provides reference information, such as
specifications, menu maps, and key definitions.

The Programmer’s Guide provides general HP-IB programming
information, a command reference, and example programs. The
Programmer’s Guide contains a CD-ROM with example programs.

The CD-ROM provides the Installation and Quick Start Guide, the
User’s Guide, the Reference Guide, and the Programmer’s Guide in
PDF format for viewing or printing from a PC.

The Service Guide provides information on calibrating,
troubleshooting,and servicing your analyzer. The Service Guide is not
part of a standard shipment and is available only as Option 0BW, or
by ordering HP part number 08720-90397. A CD-ROM with the
Service Guide in PDF format is included for viewing or printing from
a PC.

v

vi

Contents

1. Installing Your Analyzer

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-2

STEP 1. Verify the Shipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-3

STEP 2. Familiarize Yourself with the Analyzer Front and Rear Panels . . . . . . . . . . . . . . .1-5

Analyzer Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-5

Analyzer Rear Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-6

STEP 3. Meet Electrical and Environmental Requirements . . . . . . . . . . . . . . . . . . . . . . . . .1-7

STEP 4. Configure the Analyzer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-9

To Configure the Standard Analyzer. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-10

To Configure an Analyzer with a High Stability Frequency Reference (Option 1D5) . . .1-10

To Configure the Analyzer with Printers or Plotters . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-11

To Configure the Analyzer for Bench Top or Rack Mount Use . . . . . . . . . . . . . . . . . . . . .1-16

STEP 5. Verify the Analyzer Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-20

To View the Installed Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-21

To Initiate the Analyzer Self-Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-22

To Run the Operator's Check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-23

To Test the Transmission Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-24

To Test the Reflection Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-25

STEP 6. Back Up the EEPROM Disk . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-26

Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-26

Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-26

EEPROM Backup Disk Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-26

2. Quick Start: Learning How to Make Measurements

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-2

Analyzer Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-3

Measurement Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-5

Step 1. Choose measurement parameters with your test device connected . . . . . . . . . . . .2-5

Step 2. Make a measurement calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-5

Step 3. Measure the device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-5

Step 4. Output measurement results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-5

Learning to Make Transmission Measurements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-6

Step 1. Choose the measurement parameters with your test device connected . . . . . . . . .2-6

Step 2. Perform a measurement calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-7

Step 3. Measure the device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-8

Step 4. Output measurement results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-8

Measuring Other Transmission Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-10

Learning to Make Reflection Measurements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-13

Step 1. Choose measurement parameters with your test device connected . . . . . . . . . . .2-14

Step 2. Make a measurement calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-15

Step 3. Measure the device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-16

Step 4. Output measurement results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-17

Measuring Other Reflection Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-18

If You Encounter a Problem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-23

Power-up Problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-23

Data Entry Problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-24

No RF Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-24

vii

Contents

viii

1 Installing Your Analyzer

1-1

Installing Your Analyzer

Introduction

Introduction

This chapter shows you how to install your analyzer and confirm the correct operation, by
following the steps below:

1. Verify the shipment.

2. Familiarize yourself with the analyzer front and rear panels.

3. Meet electrical and environmental requirements.

4. Configure the analyzer.

5. Verify the analyzer operation.

6. Back up the EEPROM disk.

1-2 Chapter1

Installing Your Analyzer

STEP 1. Verify the Shipment

STEP 1. Verify the Shipment

1. Unpack the contents of all the shipping containers. WARNING: The analyzer weighs

approximately 54 pounds (25 kilograms). Use correct lifting techniques.

2. Carefully inspect the analyzer to ensure that it was not damaged during shipment.

NOTE If your analyzer was damaged during shipment, contact your nearest

Hewlett-Packardoffice or sales representative. A list of HP sales and service offices is
provided in Table 2-1 on page 2-26.

Chapter 1 1-3

Installing Your Analyzer

STEP 1. Verify the Shipment

3. Verify that all the accessories have been included with the analyzer.

Part Number Item

Number

08720-90391 1 Installation and Quick Start Guide
08720-90392 2 User's Guide
08720-90393 3 Reference Guide
08753-90475 4 Programmer’s Guide
08720-90418 5 CD-ROM

unique to

instrument

unique to

country
5062-3978 8 Rack Flange Kit (Option 1CM only)
5062-4072 8 Rack Flange Kit with Handles (Option 1CP only)
5062-3990 8 Front Handle Kit (standard)

6 EEPROM Backup Disk

7 AC power cable

Description

1-4 Chapter1

Installing Your Analyzer

STEP 2. Familiarize Yourself with the Analyzer Front and Rear Panels

STEP 2. Familiarize Yourself with the Analyzer Front and
Rear Panels

Analyzer Front Panel

CAUTION Do not mistake the line switch for the disk eject button. See the figure below. If the

line switch is mistakenly pushed, the instrument will be turned off, losing all settings
and data that have not been saved.

1 LINE (power on/off) switch 8 RESPONSE function block
2 Display 9 ACTIVE CHANNEL keys
3 Disk drive 10 ENTRY block
4 Disk eject button 11 INSTRUMENT STATE function block
5 Softkeys

6 key

Return

7 STIMULUS function block 14 ES models only:

Chapter 1 1-5

12 key

Preset

13 ES models only: R CHANNEL connectors

ET models only:

PORT 1

and

PORT 2

REFLECTION

and

TRANSMISSION

Installing Your Analyzer

STEP 2. Familiarize Yourself with the Analyzer Front and Rear Panels

Analyzer Rear Panel

1 HP-IB connector 11 AUXILIARY INPUT connector
2 PARALLEL interface 12 EXTERNAL AM connector
3 RS-232 interface 13 EXTERNAL TRIGGER connector
4 KEYBOARD input

(mini-DIN) 14 TEST SEQUENCE
5 Power cord receptacle,

with fuse 15 LIMIT TEST
6 Line voltage selector switch 16 MEASURE RESTART
7 Fan 17 TEST SET I/O INTERCONNECT
8 10 MHZ PRECISION

REFERENCE OUTPUT

a

18 BIAS INPUTS AND FUSES

9 10 MHZ REFERENCE

ADJUST

a

19 Serial number plate

10 EXTERNAL REFERENCE

INPUT connector 20 RF IN/OUT

b

21 EXTERNAL MONITOR: VGA

a. Option 1D5 only.
b. Option 085 only.

1-6 Chapter1

Installing Your Analyzer

STEP 3. Meet Electrical and Environmental Requirements

STEP 3. Meet Electrical and Environmental Requirements

1. Set the line-voltage selector to the

position that corresponds to the AC power
source.

3. Ensure the operating environment meets
the following requirements:

2. Ensure the available AC power source
meets the following requirements:

• 90–132 VAC

• 47–66 Hz / 400 Hz (single phase)
OR

• 198–265 VAC

• 47–66 Hz (single phase)

The analyzer power consumption is 350 VA
maximum.

4. Verify that the power cable is not

damaged, and that the power-source outlet
provides a protective earth contact.

• 0 to 55 °C

• < 95% relative humidity at 40 °C
(non-condensing)

• < 15,000 feet (≈ 4,500 meters) altitude

Some analyzer performance parameters are
specified for 25 °C ±5 °C. Refer to the
Reference Guide for information on the
environmental compatibility of warranted
performance.

WARNING: Any interruption of the
protective (grounding) conductor or
disconnection of the protective earth
terminal, can result in personal injury,
or may damage the analyzer.

Chapter 1 1-7

Installing Your Analyzer

STEP 3. Meet Electrical and Environmental Requirements

5. Ensure there are at least six inches of clearance between the sides and back of either the
stand-alone analyzer or the system cabinet.

CAUTION: The environmental temperature must be 4 °C less than the maximum
operating temperature of the analyzer for every 100 watts dissipated in the cabinet. If the
total power dissipated in the cabinet is >800 watts, then you must provide forced
convection.

6. Set up a static-safe workstation. Electrostatic discharge (ESD) can damage or destroy
electronic components.

• static-control table mat and earth
ground wire: HP part number 9300-0797

• wrist-strap cord: HP part number
9300-0980

• wrist-strap: HP part number 9300-1367

• heel-straps: HP part number 9300-1308

• floor mat: not available through
Hewlett-Packard

1-8 Chapter1

STEP 4. Configure the Analyzer

STEP 4. Configure the Analyzer

This step shows you how to set up your particular analyzer configuration.

• standard configuration

• Option 1D5 configuration − high stability frequency reference

• printer or plotter configuration

• rack-mount configuration

Installing Your Analyzer

Chapter 1 1-9

Installing Your Analyzer

STEP 4. Configure the Analyzer

To Configure the Standard Analyzer

Connect test port cables and optional adapters if you are using other connector types.

To Configure an Analyzer with a High Stability Frequency
Reference (Option 1D5)

Connect the jumper cable on the analyzer rear panel as shown.

1-10 Chapter1

STEP 4. Configure the Analyzer

PARALLEL

COPY

GPIO

COPY

GPIO

To Configure the Analyzer with Printers or Plotters

1. Connect your printer or plotter to the corresponding interface.

Installing Your Analyzer

2. If you are using the parallel interface, press and toggle until your
choice of or appears.

Local

If you choose , the parallel port is
dedicated for normal copy device use
(printers or plotters).

If you choose , the parallel port is
dedicated for general purpose I/O. The
analyzer controls the data input or output
through the sequencing capability of the
analyzer.

Chapter 1 1-11

Installing Your Analyzer

SET ADDRESSES

PRINTER PORT

PLOTTER PORT

SET ADDRESSES

PLOTTER PORT

DISK

HPIB

PARALLEL

SERIAL

PLOTTER PORT

PRINTER PORT

HPIB

PARALLEL [COPY]

PARALLEL

STEP 4. Configure the Analyzer

3. Press and then choose either or
, depending on your hardcopy device. Or, if you are plotting your files

to disk, press .

4. Press the key that corresponds to your printer or plotter interface: ,

(parallel port), or (serial port). NOTE: The plotter menu is
shown as an example. It will only appear if you select . Similar
interface choices will appear if you select .

• If you select , the HP-IB address
selection is active. Enter the HP-IB
address of your printer or plotter,

followed by .

• If you have already selected the

parallel-port configuration, you must
also select inthis menu in

order to generate a hardcopy.

x1

choice for the

1-12 Chapter1

Installing Your Analyzer

PLOTTER BAUD RATE

PRINTER BAUD RATE

PLOTTER PORT

XMIT CNTRL

Xon/Xoff

DTR/DSR

PRINTER PORT

Xon/Xoff

DTR/DSR

STEP 4. Configure the Analyzer

5. If you will be using the serial port, adjust the analyzer's baud rate until it is equal to the
baud rate set on the peripheral by pressing or

and the and front panel keys. NOTE: The plotter

menu is shown as an example. It will only appear if you select .

You can set the analyzer to the following
baud rates:

• 1200

• 2400

• 4800

• 9600

• 19200

6. Also, if you will be using the serial port, you must toggle the transmission control
(handshaking protocol) until your choice of or

appears (equal to the transmission control set on the peripheral). The printer menu is
shown as an example. It will only appear if you select .

NOTE: Transmission control for plotters is set programmatically.

• sets transmission
on/transmission off (software
handshake).

• sets data terminal
ready/data set ready (hardware
handshake).

Chapter 1 1-13

Installing Your Analyzer

PLTR TYPE

PLOTTER

HPGL PRT

PLOTTER

HPGL PRT

PRNTR TYPE

THINKJET

DESKJET

LASERJET

PAINTJET

DJ 540

EPSON-P2

STEP 4. Configure the Analyzer

7. If you will be creating a plot of the data, toggle until your choice of
or appears.

• Choose for a pen plotter.

• Choose for a PCL5
compatible printer.

a

8. If you will be using a printer, toggle until your printer choicea appears.

• Choose your printer type from these HP
printers:

❏
❏

(except for HP DeskJet 540 and
Deskjet 850C)

❏
❏
❏ (for use with

HP DeskJet 540 and
Deskjet 850C—converts 100 dpi
raster information to 300 dpi raster
format)

• Choose for
Epson-compatible printers (ESC/P2
printer control language).

a. For a current printer compatibility guide, consult the web page at

http://www.hp.com/go/pcg.

1-14 Chapter1

Installing Your Analyzer

SET CLOCK

ROUND SECONDS

STEP 4. Configure the Analyzer

9. Press to begin
setting and activating the time stamp
feature so the analyzer places the time and
date on your hardcopies and disk
directories.

11. Press when the
time is exactly as you have set it.

System

10. Press each of the following softkeys to
set the date and time, followed by .

x1

Chapter 1 1-15

Installing Your Analyzer

STEP 4. Configure the Analyzer

To Configure the Analyzer for Bench Top or Rack Mount Use

There are three kits available for the analyzer:

• instrument front handles kit (standard: HP part number 5062-3990)

• cabinet flange kit without front handles (Option 1CM: HP part number 5062-3978)

• cabinet flange kit with front handles (Option 1CP: HP part number 5062-4072)

1-16 Chapter1

To Attach Front Handles to the Analyzer (Standard)

Installing Your Analyzer

STEP 4. Configure the Analyzer

1. Ensure that the front handle kit is complete.
NOTE: If any items are damaged or missing

from the kit, contact the nearest HP sales or
service office to order a replacement kit. Items
within the kit (handles, flanges, screws, etc.)
are not individually available.

• (2) front handles

• (6) screws

• (2) trim strips

2. Remove the side trim strips.

3. Attach the handles to the sides of the front

panel, using three screws for each handle.

4. Place the new trim strip over the screws on
the handles.

WARNING: If an instrument handle is
damaged, you should replace it
immediately. Damaged handles can break
while you are moving or lifting the
instrument and cause personal injury or
damage to the instrument.

Chapter 1 1-17

Installing Your Analyzer

STEP 4. Configure the Analyzer

To Attach Cabinet Flanges without Front Handles to the Analyzer
(Option 1CM)

1. Ensure that the cabinet flange kit is

complete.

• (2) cabinet mount flanges

• (6) screws

3. Attach the cabinet flanges to the sides of
the front panel using three screws for each
flange.

2. Remove side trim strips.

4. Remove the feet and the tilt stands before

cabinet mounting the instrument.

1-18 Chapter1

STEP 4. Configure the Analyzer

To Attach Cabinet Flanges with Front Handles to the Analyzer
(Option 1CP)

Installing Your Analyzer

1. Ensure that the cabinet flange kit with
handles is complete.

• (2) cabinet mount flanges

• (2) front handles

• (6) screws

3. Attach the cabinet mount flanges and the
handles to the sides of the front panel, using
three screws per side. (Attach the flanges to
the outside of the handles.)

2. Remove the side trim strips.

4. Remove the feet and the tilt stands before

cabinet mounting the instrument.

WARNING: If an instrument handle is
damaged, you should replace it
immediately. Damaged handles can
break while you are moving or lifting
the instrument and cause personal
injury or damage to the instrument.

Chapter 1 1-19

Installing Your Analyzer

STEP 5. Verify the Analyzer Operation

STEP 5. Verify the Analyzer Operation

The following procedures show you how to check your analyzer for correct operation:

• viewing installed options

• initiating self-test

• running operator's check

• testing transmission mode

• testing reflection mode

NOTE If the analyzer should fail any of the following tests, call the nearest HP sales

or service office to determine the type of warranty you have. If repair is
necessary, send the analyzer (and the EEPROM backup disk) to the nearest
HP service center with a description of any failed test and any error message.
Ship the analyzer using the original packaging materials. Returning the
analyzer in anything other than the original packaging may result in
non-warranted damage. A table listing of Hewlett-Packard sales and service
offices is provided in Table 2-1 on page 2-26.

NOTE The illustrations depicting the analyzer display were made using an ES

model. Other analyzer displays may appear different, depending on model
and options.

1-20 Chapter1

To View the Installed Options

SERVICE MENU

FIRMWARE REVISION

Installing Your Analyzer

STEP 5. Verify the Analyzer Operation

1. Cycle the AC power using the LINE switch, or press
.

2. Locate the serial number and configuration options. Compare them to the shipment

documents.

System

Chapter 1 1-21

Installing Your Analyzer

STEP 5. Verify the Analyzer Operation

To Initiate the Analyzer Self-Test

1. Cycle the AC power using the LINE switch.

2. Watch for the following indications that the analyzer is operating correctly:

1-22 Chapter1

To Run the Operator's Check

SERVICE MENU

TESTS

EXTERNAL TESTS

EXECUTE TEST

CONTINUE

EXECUTE TEST

CONTINUE

EXECUTE TEST

CONTINUE

Installing Your Analyzer

STEP 5. Verify the Analyzer Operation

1. Connect the equipment as shown.

3. ET models only: Press

. Follow the prompts

shown on the analyzer display and then
press .

2. Press

Follow the prompts shown on the analyzer
display and then press .

3. ES models only: Press

shown on the analyzer display and then press

Preset System

.

. Follow the prompts

.

Chapter 1 1-23

Installing Your Analyzer

Trans: FWD S21(B/R)

TRANSMISSN

Trans: REV S12 (A/R)

STEP 5. Verify the Analyzer Operation

To Test the Transmission Mode

1. Connect the equipment as shown and

press .NOTE: The test port return
cable should have low-loss characteristics to
avoid a degradation in frequency response
at higher frequencies.

3. Look at the measurement trace displayed
on the analyzer. It should be similar to the
trace below.

Preset Chan 2 Meas

2. To check the forward transmission mode
for channel 2, press

or

.

4. ES models only: To check the reverse
transmission mode for channel 2, press

Meas

measurement trace should be similar to the
trace below.

. The

1-24 Chapter1

To Test the Reflection Mode

Refl: REV S22 (B/R)

Installing Your Analyzer

STEP 5. Verify the Analyzer Operation

1. Connect the equipment as shown and

press .

3. ES models only: To check the reverse

reflection mode for channel 1, press

trace should be similar to the trace shown
below.

Preset

Meas

. The measurement

2. Look at the measurement trace displayed
on the analyzer. It should be similar to the
trace below.

4. If you are ready to start making
measurements, continue with the next
chapter, “Quick Start: Learning How to
Make Measurements.”

Chapter 1 1-25

Installing Your Analyzer

FILE UTILITIES

FORMAT DISK

FORMAT:LIF

FORMAT:DOS

FORMAT INT DISK

YES

SERVICE MENU

SERVICE MODES

MORE

STORE EEPR

SELECT DISK

INTERNAL DISK

RETURN

SAVE STATE

STEP 6. Back Up the EEPROM Disk

STEP 6. Back Up the EEPROM Disk

Description

Correction constants are stored in EEPROM on the A7 controller assembly. The advantage
of having an EEPROM backup disk is the ability to store all the correction-constant data to
a new or repaired A7 assembly without having to rerun the correction-constant
procedures. The analyzer is shipped from the factory with an EEPROM backup disk which
is unique to each instrument. It is prudent to make a copy of the EEPROM backup disk so
that it can be used in case of failure or damage to the original backup disk.

Equipment

3.5-inch disk.......................................................................................HP 92192A (box of 10)

CAUTION Do not mistake the line switch for the disk eject button. If the line switch is

mistakenly pushed, the instrument will be turned off, losing all settings and
data that have not been saved.

EEPROM Backup Disk Procedure

1. Press .

2. Insert a 3.5-inch disk into the analyzer disk drive.

3. If the disk is not formatted, press .

• To format a LIF disk, select (The supplied EEPROM backup disk is

• To format a DOS disk, select .
Press and answer at the query.

4. Press . Toggle
to ON. Then press

NOTE A default file “FILE00” is created. The file name appears in the upper

Preset

Save/Recall

LIF. The analyzer does not support LIF-HFS format.)

System

Save/Recall

to store the correction-constants data onto floppy disk.

left-hand corner of the display. The file type “ISTATE(E)” describes the file as
an instrument-state with EEPROM backup.

1-26 Chapter1

Installing Your Analyzer

FILE UTILITIES

RENAME FILE

ERASE TITLE

SELECT LETTER

DONE

STEP 6. Back Up the EEPROM Disk

5. Press . Use the front panel knob
and the softkey to rename the file “FILE00” to “N12345” where

12345 represents the last 5 digits of the instrument's serial number. (The first character
in the file name must be a letter.) When finished, press .

6. Label the disk with the serial number of the instrument, the date, and the words
“EEPROM Backup Disk.”

NOTE Whenever the analyzer is returned to Hewlett-Packard for servicing and/or

calibration, the EEPROM backup disk should be returned with the analyzer.
This will significantly reduce the instrument repair time.

7. The EEPROM backup disk procedure is now complete.

Chapter 1 1-27

Installing Your Analyzer

STEP 6. Back Up the EEPROM Disk

1-28 Chapter1

2 Quick Start: Learning How to Make

Measurements

2-1

Quick Start: Learning How to Make Measurements

Introduction

Introduction

The information and procedures in this chapter teach you how to make measurements and
what to do if you encounter a problem with your analyzer. The following sections are
included:

• Front Panel

• Measurement Procedure

• Learning to Make Transmission Measurements

• Learning to Make Reflection Measurements

• If You Encounter a Problem

NOTE The illustrations depicting the analyzer display were made using an ES

model. Other analyzer displays may appear different, depending on model
and options.

2-2 Chapter2

Quick Start: Learning How to Make Measurements

Analyzer Front Panel

Analyzer Front Panel

CAUTION Do not mistake the line switch for the disk eject button. See the figure below.

If the line switch is mistakenly pushed, the instrument will be turned off,
losing all settings and data that have not been saved.

Figure 2-1 The Analyzer Front Panel

1. LINE switch. This switch controls AC power to the analyzer. 1 is on, 0 is off.

2. Display. This shows the measurement data traces, measurement annotation, and
softkey labels.

3. Disk drive. This 3.5-inch drive allows you to store and recall instrument states and
measurement results for later analysis.

4. Disk eject button. This button ejects the disk from the disk drive.

5. Softkeys. These keys provide access to menus that are shown on the display.

6. key. This key returns the previous softkey menu shown on the display.

Return

7. STIMULUS function block. The keys in this block allow you to control the analyzer
source's frequency, power, and other stimulus functions.

8. RESPONSE function block. The keys in this block allow you to control the
measurement and display functions of the active display channel.

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

Chapter 2 2-3

Quick Start: Learning How to Make Measurements

Analyzer Front Panel

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 HP-IB controller mode

• limit testing

• tuned receiver mode

• frequency offset mode (Option 089)

• test sequence function

• time domain transform (Option 010)
HP-IB STATUS indicators are also included in this block.

12. key. This key returns the instrument to either a known factory preset state, or

Preset

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. 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.

14. 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 S

12

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 Chapter2

Quick Start: Learning How to Make Measurements

Measurement Procedure

Measurement Procedure

This is a general measurement procedure that is used throughout the guide to illustrate
the use of the analyzer.

Step 1. Choose measurement parameters with your test device connected

• Press the key to return the analyzer to a known state.

• Connect your device under test (DUT) to the analyzer.

CAUTION Damage may result to the DUT if it is sensitive to the analyzer's default

• Choose the settings that are appropriate for the intended measurement.

❏ measurement type (S
❏ frequencies

❏ number of points
❏ power
❏ measurement trace format

• Make adjustments to the parameters while you are viewing the device response.

Preset

output power level. To avoid damaging a sensitive DUT, be sure to set the
analyzer's output power to an appropriate level before connecting the DUT to
the analyzer.

or reflection, for example)

11

Step 2. Make a measurement calibration

Press the key to begin to perform a measurement calibration using a known set of
standards (a calibration kit). Error-correction establishes a magnitude and phase
reference for the test setup and reduces systematic measurement errors.

Cal

Step 3. Measure the device

• Reconnect the device under test.

• Use the markers to identify various device response values if desired.

Step 4. Output measurement results

• Store the measurement file to a disk.

• Generate a hardcopy with a printer or plotter.

Chapter 2 2-5

Quick Start: Learning How to Make Measurements

Trans: FWD S21 (B/R)

TRANSMISSN

AUTO SCALE

AVERAGING FACTOR

AVERAGING

Learning to Make Transmission Measurements

Learning to Make Transmission Measurements

This example procedure shows you how to measure the transmission response of a

10.24 GHz bandpass filter. The measurement parameters listed are unique to this

particular test device.
For further measurement examples, refer to the “Making Measurements” chapter in the

User's Guide.

Step 1. Choose the measurement parameters with your test device connected

1. Press the key to return the analyzer to a known state.

Preset

2. Connect your test device to the analyzer as shown in Figure 2-2. Use adapters where
appropriate.

CAUTION Damage may result to the device under test if it is sensitive to the analyzer's

default output power level. To avoid damaging a sensitive DUT, be sure to set
the analyzer's output power to an appropriate level before connecting the
DUT to the analyzer.

Figure 2-2 Device Connections for a Transmission Measurement

3. Choose the following measurement settings:

Meas
Center 10.24 G/n
Span 5 G/n
Scale Ref
Avg

2-6 Chapter2

or

32 x1

. Toggle to ON.

Quick Start: Learning How to Make Measurements

CALIBRATE MENU

RESPONSE

THRU

SELECT DISK

INTERNAL MEMORY

INTERNAL DISK

EXTERNAL DISK

Learning to Make Transmission Measurements

4. Look at the device response to determine if these are the parameters that you want for
your device measurement. For example, if the trace is noisy you may want to increase
the test port output power (which increases the analyzer input power), reduce the IF
bandwidth, or add averaging. Or, to better see an area of interest, you may want to
change the test frequencies.

Step 2. Perform a measurement calibration

1. Disconnect your test device from the analyzer.

2. Connect a “thru” between the measurement cables, as shown in Figure 2-3. Include all
the adapters that you will use in your device measurement.

If noise reduction techniques are needed for the measurement, the instrument's
settings (reduced IF BW, and /or averaging) should be selected prior to any
error-correction.

Figure 2-3 Connections for a “Thru” Calibration Standard

3. Press the following keys to make a transmission response calibration:

Cal

4. To save the error-correction (measurement calibration), press:

Save/Recall

5. Next, choose from the following options:

• Choose if you want to save the calibration results and

• Choose if you want to save the calibration results and

• Choose if you want to save the calibration results and

Chapter 2 2-7

instrument state to the analyzer's memory.

instrument state to the disk that is in the analyzer's internal disk drive.

instrument state to the disk that is in an (optional) external disk drive that is
configured to the analyzer.

Quick Start: Learning How to Make Measurements

RETURN

SAVE STATE

AUTO SCALE

Learning to Make Transmission Measurements

6. Press to save the error-correction (measurement calibration).

NOTE Example procedures for all types of error-correction (measurement

calibrations) are located in the “Calibrating For Increased Measurement
Accuracy” chapter in the User's Guide. For information on the analyzer
operation during error-correction (measurement calibration), refer to the
“Operating Concepts” chapter in the User's Guide.

Step 3. Measure the device

Measuring Insertion Loss

1. Reconnect your test device as in Figure 2-2.

2. Reposition the measurement trace for the best view. This can be done by pressing

Scale Ref

position, or the scale/division.

and, if necessary, adjusting the reference level, reference

3. Press and turn the front panel knob to place the marker at a frequency of

Marker

interest. Read the device's insertion loss to 0.001 dB resolution as shown in Figure 2-4.
The analyzer shows the frequency of the marker location in the active entry area

(upper-left corner of display). The analyzer also shows the amplitude and frequency of
the marker location in the upper-right corner of the display.

Figure 2-4 Example Measurement of Insertion Loss

Step 4. Output measurement results

This example procedure shows how to output (store) measurement results to a disk.

2-8 Chapter2

Quick Start: Learning How to Make Measurements

SELECT DISK

INTERNAL DISK

RETURN

DEFINE DISK-SAVE

DATA ARRAY

RAW ARRAY

FORMAT ARY

GRAPHICS

DATA ONLY

DATA ONLY

DATA ONLY

SAVE USING BINARY

SAVE USING ASCII

RETURN

SAVE STATE

Learning to Make Transmission Measurements

For more information on creating a hardcopy of the measurement results, refer to
the "Printing, Plotting, and Saving Measurement Results" chapter in the User's Guide.

CAUTION Do not mistake the line switch for the disk eject button. If the line switch is

mistakenly pushed, the instrument will be turned off, losing all settings and
data that have not been saved.

1. Insert a DOS- or LIF-formatted disk into the analyzer disk drive. The analyzer does not
support LIF-HFS (hierarchy file system).

2. Press . Choose to save the

Save/Recall

measurement results to the analyzer's internal disk drive.

3. Press .

• Toggle to ON if you want to store the error-corrected data on disk

with the instrument state.

• Toggle to ON if you want to store the raw data (ratioed and averaged,

but no error-correction) on disk with the instrument state.

• Toggle to ON if you want to store the formatted data on disk with

the instrument state.

• Toggle to ON if you want to store user graphics on disk with the

instrument state.

• Toggle to ON if you want to only store the measurement data of the

device under test. The analyzer will not store the instrument state and
error-correction (measurement calibration). Therefore, the saved data cannot be
retrieved into the analyzer.

NOTE Toggling to ON will override all of the other save options.

Because this type of data is only intended for computer manipulation, the file
contents of a save cannot be recalled and displayed on the

analyzer.

• Choose if you want to store data in a binary format.

• Choose if you want to store data in an ASCII format, to later

4. Press and the analyzer saves the file with a default title.

Chapter 2 2-9

read on a computer.

Quick Start: Learning How to Make Measurements

SEARCH: MAX

MKR ZERO

MKR ZERO∆ REF=

WIDTHS

Learning to Make Transmission Measurements

Measuring Other Transmission Characteristics

Using the analyzer marker functions, you can derive several important filter parameters
from the measurement trace that is shown on the analyzer display.

Measuring 3 dB Bandwidth.

The analyzer can calculate your test device bandwidth between two equal power levels. In
this example procedure, the analyzer calculates the −3 dB bandwidth relative to the center
frequency of the filter.

1. Press and turn the front panel knob to move the marker to the center

Marker

frequency position of the filter passband. An alternative method is to press

Marker Search

which should put you very close to the center of the

passband.

You can also position the marker by entering a frequency location: for example, press

10.24 G/n

2. Press to zero the delta marker magnitude and frequency (this

Marker

.

sets the delta marker reference). The −3 dB points will be relative to this marker.
The softkey label changes to to show you that the delta

∆

reference point is the small ∆ symbol.

3. Press to enter the marker search mode.

Marker Search

4. Toggle to ON.
The analyzer calculates the −3 dB bandwidth, the center frequency and the Q (quality

factor) of the test device and lists the results in the upper-right corner of the display.
Markers 3 and 4 indicate the location of the −3 dB points, as shown in Figure 2-5.

Figure 2-5 Example Measurement of 3 dB Bandwidth

2-10 Chapter2

Quick Start: Learning How to Make Measurements

WIDTH VALUE

all OFF

MARKER 1

MKR ZERO

SEARCH: MIN

IF BW

AVERAGING

Learning to Make Transmission Measurements

5. Press and enter .

−6 x1

The analyzer now calculates the bandwidth between −6 dB power levels.

6. Press when you are finished with this measurement.

Marker

Measuring Out-of-Band Rejection.

1. Press . The marker appears where you placed it during the bandwidth
measurement.

2. Press .

Marker Search

The marker automatically searches for the minimum point on the trace. The frequency
and amplitude of this point, relative to the delta symbol in the center of the filter
passband, appear in the upper-right corner of the display. This value is the difference
between the maximum power in the passband and the power in the rejection band, that
is, one of the peaks in the rejection band.

Figure 2-6 Example Measurement of Out-of-Band Rejection

NOTE You can use the marker search mode to search the trace for the maximum

point or for any target value. The target value can be an absolute level (for
example, −3 dBm) or a level relative to the location of the small delta symbol
(for example: −3 dB from the center of the passband).

3. If your measurement needs some noise reduction, you can reduce the IF bandwidth or
add averaging.

• To reduce the IF bandwidth, press .

• To add averaging, press . Toggle to ON.

Chapter 2 2-11

Avg

Avg

Quick Start: Learning How to Make Measurements

RECALL STATE

MODE MENU

REF=1

MARKER 2

MARKER MODE MENU

STATS

Learning to Make Transmission Measurements

Measuring Passband Flatness or Ripple.

Passbandflatness (or ripple) is the variation in insertion loss over a specified portion of the
passband.

Continue with the following steps to measure passband flatness or ripple.

1. Press (if necessary, scroll to the desired file using

panel keys). Press to recall the error-corrected transmission

Save/Recall

the and front

measurement that has no markers engaged.

2. Press and turn the front panel knob to move marker 1 to the left edge of the

Marker

passband.

3. Press to change the marker 1 position to the delta

∆

∆

reference point.

4. Press and turn the front panel knob to move marker 2 to the right edge of
the passband.

5. Press . Toggle to ON.

Marker Fctn

The analyzer calculates the mean, standard deviation, and peak-to-peak variation
between the ∆ reference marker and the active marker, and lists the results in the
upper-right corner of the display. The passband ripple is automatically shown as the
peak-to-peak variation between the markers.

Figure 2-7 Example Measurement of Passband Flatness or Ripple

2-12 Chapter2

Quick Start: Learning How to Make Measurements

Learning to Make Reflection Measurements

Learning to Make Reflection Measurements

This example procedure shows you how to measure the reflection response of a 125 MHz
bandpass filter. The measurement parameter values listed are unique to this particular
test device.

For further measurement examples, refer to the "Making Measurements" chapter in the
User's Guide.

NOTE Reflection measurements monitor only one port of a test device. When a test

device has more than one port, you must ensure that the unused port(s) are
terminated in their characteristic impedance (for example, 50Ω or 75Ω). If
you do not terminate unused ports, reflections from these ports will cause
measurement errors. Figure 2-8 on page 2-14 illustrates two ways to
terminate an unused device port with the proper characteristic impedance.

The signal reflected from the device under test is measured as a ratio of the reflected
energy versus the incident energy. It can be expressed as reflection coefficient, return loss,
or standing-wave-ratio (SWR). These measurements are mathematically defined as
follows:

reflection coefficient (Γ) = reflected voltage / incident voltage

= S11 or S22 (magnitude and phase)

magnitude of reflection
coefficient (ρ)

return loss (dB) = −20 log (ρ), where (ρ) = |Γ|
standing-wave-ratio (SWR)

=|Γ|

= V

maximum

/ V

minimum

= (1 + ρ) / (1 −ρ)

Chapter 2 2-13

Quick Start: Learning How to Make Measurements

Refl: FWD S11 (A/R)

REFLECTION

AUTO SCALE

AVERAGING FACTOR

AVERAGING

Learning to Make Reflection Measurements

Step 1. Choose measurement parameters with your test device connected

1. Press the key to return the analyzer to a known state.

Preset

2. Connect your test device as shown in Figure 2-8. If using a load, make sure it has the
correct characteristic impedance.

CAUTION Damage may result to the device under test if it is sensitive to the analyzer's

default output power level. To avoid damaging a sensitive DUT, be sure to set
the analyzer's output power to an appropriate level before connecting the
DUT to the analyzer.

Figure 2-8 Connections for Reflection Measurements

3. Choose the following measurement parameters:

Meas
Center 10.24 G/n
Span 1 G/n
Scale Ref
Avg

or

32 x1

. Toggle to ON.

4. Look at the device response to determine if these are the measurement parameters that
you want. For example, if the trace is noisy you may want to increase the input power,
reduce the IF bandwidth, or add averaging. Or, to better see an area of interest, you
may want to change the test frequencies.

2-14 Chapter2

Quick Start: Learning How to Make Measurements

CAL KIT

SELECT CAL KIT

N 50

7mm

RETURN

CALIBRATE MENU

S11 1-PORT

REFLECTION 1-PORT

SHORT (M)

DONE 1-PORT CAL

DONE 1-PORT CAL

SAVE STATE

Learning to Make Reflection Measurements

Step 2. Make a measurement calibration

Follow these instructions to perform an S11 or reflection 1-port error correction:

1. Select a calibration kit that is appropriate to your device under test. Press

Cal

. Choose the calibration kit that is appropriate to your
test device by pressing the appropriate softkey. For example, if your test device uses
type-N 50Ω connectors, press . If your test device uses 7-mm connectors, press

Ω

, and so on.

2. Press twice, or
.

3. Follow the prompts shown on the analyzer display to connect and measure an open,

short, and load on PORT 1 or the REFLECTION port.
Any choice of male/female in the calibration process should always be made for the sex

that represents the test port. For example, if the test port had a male, type-N connector,
you would connect the female, type-N calibration device. But when you follow the
prompts on the analyzer to measure a short calibration standard, you would select

, or the sex that represents the test port.

CAUTION To ensure an accurate error correction, you must connect the calibration

standards to the adapters or cables that you will include in the actual device
measurement.

NOTE If a mistake is made, standards can be measured more than once before

pressing . Only the last measurement data is used.

Figure 2-9 Connections for an S11 or Reflection 1-Port Error-Correction

4. Press after measuring the three standards.

5. Press .

Save/Recall

6. Press to complete the process.

Chapter 2 2-15

Quick Start: Learning How to Make Measurements

AUTO SCALE

Learning to Make Reflection Measurements

Step 3. Measure the device

Measuring Return Loss.

1. Connect your device to PORT 1 or the REFLECTION port.

2. Press to reposition the trace.

3. Press to read the return loss from the analyzer display as shown in

Scale Ref
Marker

Figure 2-10.

The device response indicates that the filter and the analyzer impedances are better
matched within the frequency range of the filter passband than outside the passband.
That is, the reflected signal is smaller within the filter passband than outside the
passband.

In terms of return loss, the value within the passband is larger than outside the
passband. A large value for return loss corresponds to a small reflected signal just as a
large value for insertion loss corresponds to a small transmitted signal.

Figure 2-10 Example Measurement of Return Loss

2-16 Chapter2

Quick Start: Learning How to Make Measurements

MORE

TITLE

ERASE TITLE

DONE

SYSTEM CONTROLLER

PRINT MONOCHROME

Learning to Make Reflection Measurements

Step 4. Output measurement results

This step in the procedure shows you how to output the measurement results to a printer.
For in-depth information on creating a hardcopy of the measurement results, refer to the

"Printing, Plotting, and Saving Measurement Results" chapter in the User's Guide.

1. Connect a printer to the analyzer as described in “To Configure the Analyzer with

Printers or Plotters” on page 1-11.

2. Press and then create a title for the

Display

measurement, as shown in Figure 2-11:

• Use an optional keyboard to type the title, or

• Use the front panel knob and the softkey menu to select each letter of the title.

3. Press when you finish creating the measurement title. The title appears on the

upper-left corner of the analyzer display.

4. Press to set up the analyzer as the controller. If you

Local

are using an HP-IB printer, ensure that there is not another controller on the bus. (Note
that this step is not required when using parallel or serial printers.)

5. Press to create a black and white hardcopy.

Copy

NOTE If you encounter a problem when printing a hardcopy, refer to “To Configure

the Analyzer with Printers or Plotters” on page 1-11.

Figure 2-11 Example Measurement Title

Chapter 2 2-17

Quick Start: Learning How to Make Measurements

RECALL STATE

LIN MAG

AUTO SCALE

Learning to Make Reflection Measurements

Measuring Other Reflection Characteristics

You can derive several important filter parameters from the measurement shown on the
analyzer display. The following set of procedures is a continuation of the previous
reflection measurement procedure.

Measuring Reflection Coefficient

1. Press to recall the calibrated reflection measurement

Save/Recall

that you saved earlier in this procedure.

2. Press so the analyzer shows the same

Format

Scale Ref

data in terms of reflection coefficient, as shown in Figure 2-12.
The units "mU" displayed on the analyzer are "milli-units," where "units" or "U" is used

to indicate that the parameter is unitless (as opposed to dB in log magnitude format).
For example,
200 mUnits = 0.2.

Figure 2-12 Example Reflection Coefficient Measurement Trace

2-18 Chapter2

Measuring Standing Wave Ratio (SWR)

SWR

AUTO SCALE

Quick Start: Learning How to Make Measurements

Learning to Make Reflection Measurements

Press so the analyzer shows the same data in

Format

Scale Ref

terms of standing-wave-ratio (SWR), as shown in Figure 2-13.
Now the analyzer shows the measurement data in the unitless measure of SWR where

SWR = 1 (perfect match) at the bottom of the display.

Figure 2-13 Example Standing-Wave-Ratio Measurement Trace

Chapter 2 2-19

Quick Start: Learning How to Make Measurements

POLAR

AUTO SCALE

MARKER MODE MENU

POLAR MKR MENU

LIN MKR

LOG MKR

Re/Im MKR

Learning to Make Reflection Measurements

Measuring S11 and S22 or Reflection in a Polar Format.

1. Press .

2. Press to reposition the trace, as shown in Figure 2-14.
The analyzer shows the results of an S

Format
Scale Ref

or reflection measurement with each point on

11

the polar trace corresponding to a particular value of both magnitude and phase. The
center of the circle represents a coefficient (Γ) of 0, (that is, a perfect match or no
reflected signal). The notation 2U FS or 2 units full scale indicates that the
outermost circumference of the scale shown in Figure 2-14 represents ρ = 2.00, or 200%
reflection. The phase angle is read directly from this display. The 3 o'clock position
corresponds to zero phase angle, (that is, the reflected signal is at the same phase as the
incident signal). Phase differences of 90°, 180°, and −90° correspond to the 12 o'clock, 9
o'clock, and 6 o'clock positions on the polar display, respectively.

3. Press .

Marker Fctn

4. Turn the front panel knob to position the marker at any desired point on the trace, then
read the frequency, linear magnitude and phase in the upper right-hand corner of the
display.

• Choose if you want the analyzer to show the linear magnitude and the

phase of the marker.

• Choose if you want the analyzer to show the logarithmic magnitude and

the phase of the active marker. This is useful as a fast method of obtaining a reading
of the log-magnitude value without changing to log-magnitude format.

• Choose if you want the analyzer to show the values of the marker as a

real and imaginary pair.

NOTE You can also enter the frequency of interest, from either the numeric keypad

or the optional attached keyboard, and read the magnitude and phase at that
point.

Figure 2-14 Example S

or Reflection Measurement Trace in Polar Format

11

2-20 Chapter2

Quick Start: Learning How to Make Measurements

SMITH CHART

AUTO SCALE

MARKER MODE MENU

SMITH MKR MENU

LIN MKR

LOG MKR

Re/Im MKR

Learning to Make Reflection Measurements

Measuring S11 and S22 or Reflection in a Smith Chart Format.

• Measuring Impedance

The amount of power reflected from a device is directly related to the impedance of the
device and the measuring system. Each value of the reflection coefficient (Γ) uniquely
defines a device impedance; Γ = 0 only occurs when the device and analyzer impedance are
exactly the same. The reflection coefficient for a short circuit is: Γ = 1 ∠ 180°. Every other
value for Γ also corresponds uniquely to a complex device impedance, according to the
equation:

Z

= [(1 + Γ) / (1 −Γ)]×Z

L

0

where ZL is your test device impedance and Z0 is the measuring system's characteristic
impedance (usually 50Ω or 75Ω).

1. Press .

2. Press and turn the front

Format
Marker Fctn

Scale Ref

panel knob to read the resistive and reactive components of the complex impedance at
any point along the trace, as shown in Figure 2-15. Here the complex impedance is

6.4729 – j7.5569 Ω . This is the default Smith chart marker.
The marker annotation also gives the series inductance or capacitance (132.87 pF in

this example). The complex impedance is capacitive in the bottom half of the Smith
chart display and is inductive in the top half of the display.

• Choose if you want the analyzer to show the linear magnitude and the
phase of the reflection coefficient at the marker.

• Choose if you want the analyzer to show the logarithmic magnitude and
the phase of the reflection coefficient at the active marker. This is useful as a fast
method of obtaining a reading of the log magnitude value without changing to log
magnitude format.

• Choose if you want the analyzer to show the values of the reflection
coefficient at the marker as a real and imaginary pair.

• Choose (the default marker format) to show the real and imaginary parts

R+jX MKR

of the device impedance at the marker. Also shown is the equivalent series
inductance or capacitance (the series resistance and reactance, in ohms).

Chapter 2 2-21

Quick Start: Learning How to Make Measurements

Learning to Make Reflection Measurements

Figure 2-15 Example Impedance Measurement Trace

• Measuring Admittance

To change the display to an inverse Smith chart graticule and the marker information to
read admittance, press .

G+jB MKR

As shown in Figure 2-16, the marker reads admittance data in the form G+jB, where G is
conductance and B is susceptance, both measured in units of Siemens (equivalent to mhos:
the inverse of ohms). Also shown is the equivalent parallel capacitance or inductance.

Figure 2-16 Example Admittance Measurement Trace

2-22 Chapter2

Quick Start: Learning How to Make Measurements

If You Encounter a Problem

If You Encounter a Problem

If you have difficulty when installing or using the analyzer, check the following list of
commonly encountered problems and troubleshooting procedures. If the problem that you
encounter is not in the following list, refer to additional troubleshooting sections in the
Service Guide.

Power-Up Problems

If the analyzer display does not light:

• Check that the power cord is fully seated in both the main power receptacle and the
analyzer power module.

• Check that the AC line voltage selector switch is in the appropriate position
(230 V/115 V) for your available power supply.

• Check that the analyzer AC line fuse is not open.

WARNING For continued protection against fire hazard, replace the fuse with

the same type and rating.

Refer to Figure 2-17 to remove the fuse from the power module. You can use a
continuity light or an ohmmeter to check the fuse. An ohmmeter should read very close
to zero ohms if the fuse is good. For 115V operation, use a 5A 125V TD fuse (HP part
number 2110-1059). For 230V operation, use a T 4A 250V fuse (HP part number
2110-0734).

• Contact the nearest Hewlett-Packard office for service, if necessary. A list of
Hewlett-Packard sales and service offices is provided in Table 2-1 on page 2-26.

Figure 2-17 Line Fuse Removal and Replacement

Chapter 2 2-23

Quick Start: Learning How to Make Measurements

SOURCE PWR

If You Encounter a Problem

If the display lights, but the ventilation fan does not start:

❏ Check that the fan is not obstructed. To check the fan, follow these steps:

1. Switch the LINE power to the off position.

2. Check that the fan blades are not jammed.

❏ Contact the nearest Hewlett-Packard office for service, if necessary. A list of

Hewlett-Packard sales and service offices is provided in Table 2-1 on page 2-26.

Data Entry Problems

If the data entry controls (keypad, knob, arrow keys) do not respond:

❏ Check that the ENTRY OFF function is not enabled.

The ENTRY OFF function is enabled after you press the key. To return to

Entry Off

normal entry mode, press any function key that has a numeric parameter associated
with it, for example, .

Start

❏ Check that none of the keys are stuck.
❏ Check that the selected function key accepts data.

For example, accepts data, but does not.

Scale Ref System

❏ Check that the analyzer's "R" HP-IB STATUS light is not illuminated.

If the analyzer's "R" HP-IB STATUS light is illuminated, a test sequence may be
running, or a connected computer controller may be sending commands or instructions

to, or receiving data from, the analyzer. Press if you want to return to LOCAL

Local

control.

If the parameter you are trying to enter is not accepted by the analyzer:

❏ Ensure that you are not attempting to set the parameter greater than or less than its

limit. Refer to the User's Guide for parameter limits.

No RF Output

If there is no RF signal at the front-panel port:

❏ Check that the signal at the test port is switched on.

1. Press and toggle to ON.

Power

NOTE On ES models, it is possible to set the source power to come from PORT 2

instead of PORT 1, so you must check the power at the correct port. With
factory preset, the power comes from PORT 1.

❏ If you are applying external modulation (AM) to the analyzer, check the external

modulating signal or external gate/trigger signals for problems.

2-24 Chapter2

Quick Start: Learning How to Make Measurements

If You Encounter a Problem

CAUTION If the error message:

CAUTION: OVERLOAD ON INPUT X, POWER REDUCED

appears on the analyzer display, too much source power is being applied at
the input. In such a case, the input power will need to be reduced before the
source power will remain on.

❏ If phase-lock error messages appear on the analyzer display, check that the front panel

jumper is secure on the R CHANNEL connectors. If the jumper is secure and the error
messages still appear, contact your nearest Hewlett-Packard office for service. A list of
Hewlett-Packard sales and service offices is provided in Table 2-1 on page 2-26.

Chapter 2 2-25

Quick Start: Learning How to Make Measurements

If You Encounter a Problem

Table 2-1 Hewlett-Packard Sales and Service Offices

UNITED STATES

Instrument Support Center
Hewlett-Packard Company
(800) 403-0801

EUROPEAN FIELD OPERATIONS

Headquarters
Hewlett-Packard S.A.
150, Route du Nant-d’Avril
1217 Meyrin 2/ Geneva
Switzerland
(41 22) 780.8111

Great Britain
Hewlett-Packard Ltd.
Eskdale Road, Winnersh
Triangle Wokingham,
Berkshire RG41 5DZ
England
(44 118) 9696622

Headquarters
Hewlett-Packard Company
3495 Deer Creek Rd.
Palo Alto, CA 94304-1316
USA
(415) 857-5027

Japan
Hewlett-Packard Japan,
Ltd.
9-1 Takakura-Cho, Hachioji
Tokyo 192, Japan
(81 426) 60-2111

France
Hewlett-Packard France
1 Avenue Du Canada
Zone D’Activite De
Courtaboeuf
F-91947 Les Ulis Cedex
France
(33 1) 69 82 60 60

INTERCON FIELD OPERATIONS

Australia
Hewlett-Packard Australia
Ltd.
31-41 Joseph Street
Blackburn, Victoria 3130
(61 3) 895-2895

Singapore
Hewlett-Packard Singapore
(Pte.) Ltd.
150 Beach Road
#29-00 Gateway West
Singapore 0718
(65) 291-9088

Germany
Hewlett-Packard GmbH
Hewlett-Packard Strasse
61352 Bad Homburg v.d.H
Germany
(49 6172) 16-0

Canada
Hewlett-Packard (Canada)
Ltd.
17500 South Service Road
Trans-Canada Highway
Kirkland, Quebec H9J 2X8
Canada
(514) 697-4232

Taiwan
Hewlett-Packard Taiwan
8th Floor, H-P Building
337 Fu Hsing North Road
Taipei, Taiwan
(886 2) 712-0404

China
China Hewlett-Packard Co.
38 Bei San Huan X1 Road
Shuang Yu Shu
Hai Dian District
Beijing, China
(86 1) 256-6888

2-26 Chapter2

Index

Numerics

3 dB bandwidth

measuring

6 dB bandwidth

measuring

A

active channel keys

location

admittance

measuring

analyzer configuration

attaching cabinet flanges with
attaching cabinet flanges
attaching front handles

for bench top use
for rack mount use
option 1D5
standard
with printers or plotters

B

backing up EEPROM disk
bench top configuration

C

connectors

R channel

D

definitions

magnitude of reflection
reflection coefficient

return loss (dB)
standing-wave-ratio (SWR)

disk drive location
disk eject button
display location

E

EEPROM backup disk
electrical and environmental

requirements

entry block location

F

front panel

, 2-10
, 2-11

, 2-3

, 2-22

, 1-9–1-19

front handles
without front handles

, 1-19

, 1-17

, 1-16

, 1-16

, 1-10

, 1-10

, 1-16

, 2-4

coefficient

, 2-13

, 2-13

, 2-13

2-13

, 2-3

, 2-3

, 2-3

, 1-26

, 1-7

, 2-4

, 1-5, 2-3

, 1-11

, 1-26

, 1-18

,

H

Hewlett-Packard Sales and

Service Offices

high stability frequency reference

configuration

I

impedance

measuring

insertion loss

measuring
installation
instrument state function block

keys

, 2-4

L

line switch
location

active channel keys

disk drive

disk eject button

display

entry block

instrument state function block

line switch

PORT 1

PORT 2

Preset key

R channel connectors

REFLECTION port

response function block keys

Return key

softkeys

stimulus function block keys

TRANSMISSION port

M

making measurements
measurement procedure

choosing measurement

measuring a device

outputting measurement

performing a measurement
measuring insertion loss with

O

operation

installed options

, 2-3

, 2-3

keys

, 2-4

, 2-4
, 2-4

2-3

, 2-3

2-3

parameters

results
calibration

marker functions

, 1-20–1-25

, 2-26

, 1-10

, 2-21
, 2-8

, 1-2

, 2-3

, 2-3

, 2-3

, 2-4

, 2-3

, 2-4

, 2-4

, 2-4

,

, 2-3

,

, 2-4

, 2-1–2-22

, 2-5

, 2-5

, 2-5

, 2-5

, 2-5

, 2-10

, 1-21

operator’s check
self-test
testing reflection mode

testing transmission mode
operator’s check
out-of-band rejection

measuring

P

parts list

parts received
passband flatness

measuring
passband ripple

measuring
plotter configuration
polar format

measuring
PORT 1

location
PORT 2

location
Preset key

location
printer configuration
problems, data entry

controls do not respond

parameters not accepted
problems, power-up

display does not light

display lights but fan does not
problems, RF output

no RF signal at front panel port

R

R channel connectors

location
rack mount configuration
rear panel
reflection measurements

admittance

choosing measurement

impedance

measuring in polar format

measuring in smith chart

measuringreflection coefficient

measuring return loss

measuring standing wave ratio

measuring the device

, 1-22

, 2-4
, 2-4
, 2-4

start

2-24

, 2-4

, 1-6

2-13–2-22

parameters

format

2-18

(SWR)

, 1-23

, 1-25

, 1-23

, 2-11

, 1-4
, 2-12
, 2-12

, 1-11

, 2-20

, 1-11

, 2-24

, 2-24

, 2-24

, 2-23–2-24

, 2-23

, 2-24

, 2-24

, 1-16

,

, 2-22

, 2-14

, 2-21

, 2-21

, 2-16

, 2-19

, 2-16

, 1-24

,

, 2-20

,

Index 1

Index

outputting measurement

results

performing a measurement

REFLECTION port

location

requirements

electrical and environmental

response function block keys

location
Return key, location
return loss

measuring

S

Sales and Service Offices
shipment, verifying
smith chart
smith chart format

measuring
softkeys, location
standard analyzer configuration

1-10

standing wave ratio (SWR)

measuring
stimulus function block keys

location

, 2-17

calibration

, 2-4

1-7

, 2-3

, 2-16

, 2-21

, 2-21

, 2-19

, 2-3

, 2-15

, 2-3

, 2-26

, 1-3

, 2-3

,

,

T

transmission measurements

2-6–2-12

3 dB bandwidth

6 dB bandwidth

choosing the measurement

parameters
insertion loss
measuring insertion loss with

marker functions
measuring the device
out-of-band rejection
outputting measurement

results
passband flatness
passband ripple
performing a measurement

calibration

TRANSMISSION port

location

troubleshooting

V

verifying the shipment

, 2-4

, 2-10
, 2-11

, 2-6

, 2-8

, 2-10
, 2-8

, 2-11

, 2-8

, 2-12

, 2-12

, 2-7

, 2-23–2-25

, 1-3

,

2 Index