Agilent N9320B Technical Overview

Agilent N9320B RF Spectrum Analyzer

Technical Overview

Professional spectrum analysis from 9 kHz-3 GHz
Measurement speed:
minimum non-zero span sweep time: < 10 ms
Resolving power: RBW: 10 Hz to 1 MHz in 1-3-10 steps

Sensitivity: DANL: -148 dBm with preamp

Robust measurement features for characterizing your
product easily

Built-in power measurements:
channel power, OBW, ACP, SEM and TOI
Built-in power meter function with Agilent
U2000 series power sensor support
Optional tracking generator and preamplifier

All the essentials of an
Agilent spectrum analyzer
with a price/performance
that's easy to afford

Agilent N9320B spectrum analyzer
– Built to perform, priced for you to compete

Regardless of whether your application is electronics’ manufacture, bench repair, R&D projects, or RF related education,
you need a spectrum analyzer that is equipped with the essential functionality and required performance at an affordable
price. The N9320B is designed to be the right answer for you.

Power measurement and
automated test programming
features

• The accuracy of frequency selective
power measurements when characterizing
your products is very important. With a
newly featured digital IF, the N9320B
enables dramatic improvements in power
measurement accuracy.

• Power meter functionality is also built-in
with Agilent U2000 series power sensor
support for highly accurate RF and MW
power measurements.

• The built-in 1-button power measurement
suite offers channel power, ACP, OBW, SEM
and TOI measurements.

• For automated test programming, the
N9320B provides industy standard SCPI language
support and flexible connectivity choices with
USB, LAN. Plus, SCPI code compatibility
with Agilent ESA-L series for easy instrument
replacement.

Engineered for the best
spectrum visibility

In your R&D, QA or university research lab,
you want to know as much measurement
detail as possible about your products
and designs . The N9320B offers the
best-in-class spectrum visibility. The
10 Hz minimum RBW distinguishes closely
spaced signals easily, the -148 dBm DANL
reveals low level signals clearly, and
combined with the 4 trace display and 12
markers allows you easily identify and
compare signal details.

6.5-inch high resolution screen

provides vivid spectral view
from any angle

Integrated solution for the
modern RF teaching lab

One of the best ways to improve students’
learning efficiency for RF related curriculums is
to combine lectures with hands-on labs. The
N9320B is an excellent price-performance fit for
educational purposes. Whether you wish to combine
the N9320B analyzer with the Agilent N9310A RF
signal generator for basic RF concept labs, or
enhance your RF circuit labs with the N9320B
and its optional RF training kit (option code:
N9320B-TR1), you will find adopting Agilent’s RF
education solution efficient and effective.

logically arranged function keys
and soft keys provides intuitive

access for each operational step

USB interface

offers convenient
data storage via
USB flash disk

2

Tracking generator
output enables

frequency response
measurement

Cal Out

(50 MHz,

-10 dBm)

Probe
power

for
high­imped­ance RF
probes

RF input

(N type,

female)

What’s new on N9320B?

New Features Overview

AM/FM demodulation
metrics

Offers modulation data ,including carrier power,
modulation rate, AM depth or FM deviation, SINAD
and carrier frequency offset

LAN interface

SCPI command
compatibility for Agilent
ESA-L series

Power meter function

Provides LAN connection for auto test or remote control.

Able to distinguish and interpret Agilent ESA-L SCPI
commands㧘reducing programming effort for ESA-L
replacement with N9320B

When connectiong with an Agilent U2000 series USB power
senser, the N9320B can be used as a power meter for high
accuracy power measurements

RF training kit

Special for educational purposes. The RF training kit consists
of a transceiver trainer, control panel software and lab sheets

VGA display
connector

Optionnumber

N93 20B-AMA

Standard feature

Sta nda rd feature

Sta nda rd feature

N93 20B-TR1

Frequency
reference
output

Frequency
reference
input

Security
Kensington
lock

Rackmoutable

TTL trigger
signal input

USB interface

LAN port

3U height easily fits into

your test racks

3

5

Electronics manufacturing

When you need faster and more cost effective RF analysis tools for testing today's consumer electronics products
and components - look no further!

Regardless of whether you are manufacturing
a wireless mouse, keyboards, GPS devices, or
RF components such as mixers, filters or
amplifiers, you need to measure their RF
characteristics to insure they work properly
within their design parameters like frequency
bandwidth and output power range.
Too little RF power may decrease the wireless
operating distance, while too much power can
drain batteries quickly, reducing operation time
and cause excessive heat in the device.

In today’s competitive world, you need to
verify your product’s RF performance fast and
accurately as well as lower your cost of
ownership. The affordable N9320B is designed
to help achieve all these goals. So, why not
take a closer look at the N9320B spectrum
analyzer?

Boost productivity by decreasing
test time

The throughput rate of a test station is
generally one of the key factors limiting the
productivity of a manufacturing line. You
almost always want to test your products in
the shortest possible time. The sweep time of
a spectrum analyzer is often the most
important performance specification
contributing to your RF analysis test time. The
N9320B analyzer provides you with 10 ms
non-zero span sweep time, the fastest in its
class

Testing and validating your products
with confidence

The N9320B equipped with a new digital IF section
tests your product with improved frequency and
amplitude accuracy and stability. It provides
essential information for your products’
performance and characteristics with increased
confidence. .

We have optimized the N9320B
to meet your needs in performance
and cost

z

10 ms minimum, non-zero span sweep time

z

f1.5 dB overall amplitude accuracy,
typical ±0.5 dB

z

10 Hz minimum resolution bandwidth

z

Sensitivity is -148 dBm DANL with preamplifier

z

Multiple language user interface improves
ease-of-use and reduces training time by utilizing
your local language

Best-in-class performance ensures your test
station is operating quickly without compromising
quality

4

Accelerate

time to market

while simultaneously

reducing costs.

Simplify common measurement tasks

When you find yourself having repeatedly to
make the same type of complex measurement
or measurement sequence, it is useful to know
that some shortcuts are available. That's what
we have provided for you in the N9320B
spectrum analyzer.

The N9320B spectrum analyzer continues the
Agilent tradition that test equipment should be
easy to set up and simple to use. Those
familiar with other Agilent spectrum analyzers
will find a similar user interface in the N9320B,
allowing for a shorter learning curve and easier
operation.

One button auto-tuning allows you to quickly
find and accurately analyze the highest level
signal anywhere in the analyzer’s frequency
range. Centering this signal on the screen, the
analyzer simultaneously optimizes the
frequency span, resolution and video
bandwidths, auto-scales the amplitude, sets a
marker on the signal peak and displays the
measurement results.

Power measurements made
easy using the one-button
measurement suite

You will find that the one-button power
measurement suite shortens routine test set
up time by simplifying the keypad/menu
selection.

Selecting these one-button routines directly
from the softkey menu also helps ensure
accuracy and repeatability of the test set up
and measurement no matter who presses the
button.

One of the most fundamental measurements
performed by spectrum analyzers is the
frequency domain measurement of RF power.
However, detailed analysis of a signal often
requires standards-defined spectral masks or
more complex power/bandwidth/detector
measurement combinations.

Channel power

Precise, rapid integrated channel power with
computed power spectral density utilizing
from the RMS averaging detector.

Occupied bandwidth

Selecting the percentage of the signal’s power
to be measured places markers at the upper
and lower frequencies of the waveform
representing the bandwidth utilized by that
percentage of power.

Adjacent channel power (ACP)

Fast, accurate simultaneous filtered RMS
power measurement of a carrier relative to its
leakage in up to six offset bands or channels.

Spectrum emission mask (SEM)

The spectrum emission mask (SEM) is a set of
complex limit lines forming a mask for
out-of-channel emissions measurement. The
SEM is defined relatively to in-channel power.
You can set the parameters of the main
channel, out of channel frequency bands and
the limit lines. Included is Pass/Fail testing
for the overall spectrum emission mask and
each individual out-of- channel frequency
range.

Of course, you retain the flexibility to tailor
each measurement task to your specific needs
when necessary. And you'll find it easy to
distinguish between signals having large level
differences since the N9320B has one of the
widest dynamic ranges for an analyzer in its
price range.

High accuracy power
measurements

The N9320B now supports high accuracy,
USB plug-and-play power measurements as
standard when connected to an Agilent
U2000 series USB power sensor. Make true
average power measurements for all signal
types with wide dynamic range up to 18 GHz
with just the push of a button. The Agilent
U2000 series USB power sensors require no
external power supplies and with internal
zeroing eliminate the need for external
calibration. Without the need for additional
boxes, the user can easily set up, calibrate
and control the power sensor via the analyzer’s
USB port. Two display modes are available:
either the meter or the chart mode to log
power measurements over time.

The combination of spectrum analyzer and
power meter

Bench repair

An effective, professional bench repair tool

Most bench repair tasks demand fast, cost effective test solutions. Being
small and lightweight, the N9320B spectrum analyzer is as functional and
indispensable in low-cost bench repair applications as it is for field
troubleshooting.

Detecting low signal levels while simultaneously resolving closely spaced
frequencies is a fundamental requirement for RF testing. Employing one of
the best combinations of sensitivity and narrow resolution bandwidths
(RBW) ensures that an N9320B spectrum analyzer will readily handle
these tasks.

5

R&D

When it comes to receiving the best return from your R&D equipment budget, turn to Agilent's new generation of
low-cost analyzers and sources.

Limited on your R&D budget?

You'll find an N9320B spectrum analyzer
equally versatile for budget sensitive R&D
applications. It is also suitable for RF design
verification or when initiating a low cost
project for product enhancements and
extensions.

Wherever you deploy your engineering
resources, they will find operating an
N9320B spectrum analyzer easy to use.

The low displayed average noise floor and
narrow resolution bandwidths provide
optimum spectral visibility and resolution of
small signals.

Scale indictor for quick vertical axis readout

Narrow RBW clearly distinguishes two
close-in signals

Easy to distinguish low level signal

Additional features that make
spectrum analysis easier.

z

Four traces and up to 12 markers allow optimum flexibility
for complex troubleshooting in multi-signal environments

z

Marker table lists the frequency and amplitude matrix from
all active markers, including delta markers

z

Frequency counter offers more accurate frequency readout

z

USB flash memory stick support provides quick save or
recall of measurement data

AM/FM demodulation metrics accurately
reports the signal property

6

Education

Whether you are mentoring your graduate
students for completion of an important
research project, or leading under-graduates
in hands-on experiments in your campus
electronics lab, using Agilent test equipment
in your educational institution guarantees you
are upholding the highest standards for the
future of tomorrow's engineers.

Learning how to use test instrumentation, and
understanding how RF signals interact are
fundamental to the study of electronics.
Spectrum analysis is essential to RF circuit
design. It sheds an intuitive light on signal
interactions and mixing processes for students.

The combination of the affordable price and
performance in the N9320B spectrum analyzer,
part of the low-cost test equipment series from
Agilent Technologies, means that you do not
need to limit students access to professional
RF equipment in the classroom.

Now you have the opportunity to put Agilent's
renowned quality and precision into every
student's hands. Help your students and
trainees gain the edge. There is no longer a
need to compromise on the performance of
their test equipment.

Educators hold Agilent test equipment in the
highest esteem. Therefore, you can be
confident of upholding high standards in the
classroom and insure your students will have
confidence in their experimental results. In
addition, they will be able to focus more time
on RF circuit experimentation and signal
analysis exercises, because Agilent spectrum
analyzer operation is straightforward.

You'll find the N9320B has sufficient
performance for many basic research projects,
where you need an inexpensive, fast,
high-quality, general-purpose RF signal
analyzer.

Teacher’s special: Display
projection

When you are ready to show frequency domain
phenomena to your students or even the instrument
operation, you may want to display the instrument
screen in a larger format for all the students in the
lab or classroom to observe. The N9320B supports
VGA output and can display the instrument’s screen
on a larger monitor or video projector simultaneously.

Affordable, fast support

Buying test equipment from Agilent's new
low-cost series puts you in touch with top-line
service and support should you need it. So,
you can be confident that you are making the
right choice for the right price.

.

Typical RF teaching lab solution

N9320B RF spectrum analyzer

z

N9310A RF signal generator

z

N9320B-TR1: RF training kit

z

RF education solution from Agilent

One of the best ways to improve your students’ learning efficiency for RF related curriculums is to combine teaching with
hands-on labs. We also suspect you may want to save precious instructor time by leveraging an RF teaching lab that’s
already well designed and yet inexpensive. The N9320B spectrum analyzer and its educational kit (Ordering code:
N9320B-TR1), together with Agilent’s basic signal generator N9310A offer a new and systematic RF teaching environment
for you and your students. You can design or deploy almost any RF circuit experiment for your students, from transmitters
and receivers to key individual RF components, such as mixers, amplifier and filters.

The RF training kit consists of two boards. One acts as a TX circuit, another one acts as a RX circuit. The major RF
components on each board can be separately used as standalone components. We designed the flexibility into the kit and
you'll find using Agilent’s RF education solution convenient, time saving and cost effective.
When you talk about the concept of frequency domain, carrier frequency and its harmonics or frequency selective
power measurements, you can use the N9320B spectrum analyzer and N9310A RF signal generator as the basic configuration
in your RF/microwave lab.
When you need to communicate the features of a typical RF circuit, such as the TX and RX paths, and how they deliver
signals, simply use the RF training kit and its courseware to design an effective hands-on lab for your students.
When your students need to take a closer look at those RF components, such as mixer, filters and amplifiers, the
RF training kit allows you to separately utilize its individual components

N9320B-TR1

7

Specifications

Specifications apply under the following conditions:

· After a warm-up time of 30 minutes,

· At an ambient temperature specified in the data sheet,

and within a valid calibration period.

Frequency

Frequency

Range: 9 kHz to 3 GHz AC coupled

100 kHz to 3 GHz Preamp on

Set-up resolution: 1 Hz

Internal 10 MHz frequency reference

Aging rate: ±1 ppm / year

Temperature stability: ±1 ppm

Supply voltage stability: ± 0.3 ppm

Frequency readout accuracy (start, stop, center, marker)

Marker resolution: (frequency span)/(number of sweep points – 1)

Uncertainty: ± (frequency indication

uncertainty*+1%
resolution bandwidth + marker resolution)

x span + 20% x

Supplemental information

0 °C to +50 °C; reference 25 °C
± 5 %

x frequency reference

Marker frequency counter

Resolution: 1 Hz, 10 Hz, 100 Hz, 1 kHz Selectable

Accuracy: ±{(marker frequency) RBW/span  0.02;

(frequency reference uncertainty*)
+ (counter resolution)} Marker level to displayed noise level>40 dB (RBW<1 kHz)

*Frequency reference uncertainty = (aging rate)(period since adjustment) +

(Supply voltage stability) + (temperature stability).

Frequency span

Range: 0 Hz (zero span), 100 Hz to 3 GHz.

Resolution: 1 Hz

Accuracy: ±span/(sweep points– 1)

Phase noise

Offset from CW signal: f

10 kHz: < 88 dBc/Hz

< 90 dBc/Hz Typical

100 kHz: < 100 dBc/Hz

< 102 dBc/Hz Typical

1 MHz: < 110 dBc/Hz

< 112 dBc/Hz Typical

Residual FM

100 Hz peak to peak in 100 ms 1 kHz RBW, 1 kHz VBW

Marker level to displayed noise level>30 dB(RBW1 kHz)

c = 1 GHz; RBW=1 kHz, VBW=10 Hz and sample detctor

8

Resolution bandwidth (RBW)

Accuracy:

10 Hz to 1 MHz in 1-3-10 sequence –3 dB bandwidth
±5 % Nominal

Resolution filter shape factor: < 5:1 Nominal

Video bandwidth (VBW)

1 Hz to 1 MHz in 1-3-10 sequence –3 dB bandwidth

Amplitude

Measurement range

Input attenuator range

Maximum damage level

Average continuous power: +40 dBm Input attenuator setting  10 dB

Peak pulse power: +50 dBm (100 W) For <10 ȝsec pulse width,

DC voltage: 50 VDC maximum

1 dB gain compression

Total power at input mixer: > 0 dBm Typical ; f

Total power at the preamp:

Mixer power level (dBm) = input power (dBm) - input attenuation (dB).
Total power at the preamp (dBm) = total power at the input (dBm) - input attenuation (dB).

Displayed average noise level

Preamp off:

9 kHz to 100 kHz Nominal

100 kHz to 1 MHz

1 MHz to 10 MHz

10 MHz to 3 GHz

0 dB RF attenuation; RBW 10 Hz; VBW 1 Hz, sample detector; reference level – 60 dBm.

Preamp on:

100 kHz to 1 MHz < –108 dBm – 3 x (f /100kHz) dB

1 MHz to 10 MHz < –142 dBm

10 MHz to 3 GHz < –148 dBm + 3 x (f /1 GHz) dB

0 dB RF attenuation; RBW 10 Hz; VBW 1 Hz, sample detector; reference level –70 dBm.

10 MHz - 3 GHz:

Displayed average noise level (DANL) to +30 dBm

1 MHz - 10 MHz: DANL up to 23 dBm

9 kHz - 1 MHz: DANL up to 20 dBm

0 to 70 dB, in 1 dB steps

<1 % duty cycle, and input attenuation 40 dB)

Input protection switch opens at >33 dBm with 10 dB input attenuation

c 50 MHz; preamp off

> –20 dBm

Typical ; f

c 50 MHz; preamp on

< –90 dBm
< –90 dBm – 3 x (f /100kHz) dB
< –124 dBm
< –130 dBm + 3 x (f /1 GHz) dB

Level display range

Log scale units: dBm, dBmV, dBȝV, dBȝA

Linear scale and units: ȝV, mV, V, ȝA, mA, A, ȝW, mW, W

Measurement points: 461

Marker level readout 0.01 dB Log scale

resolution: 0.01 % of reference level Linear scale

Number of traces: 4

Detectors: Positive-peak, negative-peak,

sample, normal, RMS

Trace functions: Clear/write; maximum hold;

average; minimum hold; view

9

Frequency response

200 kHz to 2.0 GHz: ± 0.5 dB

2.0 GHz to 3.0 GHz: ± 0.7 dB

Preamp off

10 dB attenuation, reference: 50 MHz,
20 to 30°C.

1 MHz to 2.0 GHz: ± 0.6 dB

2.0 GHz to 3.0 GHz: ± 0.8 dB

10 dB attenuation, reference: 50 MHz,
20 to 30 °C.

Preamp on

Input attenuation switching uncertainty at 50 MHz

Attenuator setting:

0 to 60 dB attenuation:

0 to 70 dB in 1 dB steps

Absolute amplitude accuracy

Preamp off: Bd01noitaunettatupni;mBd01–levelecnerefeRBd3.0±

Preamp on: Bd01noitaunettatupni;mBd03–levelecnerefeRBd4.0±

C

enter frequency 50 MHz; RBW1 kHz; VBW 1 kHz; amplitude scale log; span 100 kHz; sweep time coupled,

sample detector, signal at reference level.

Level measurement uncertainty

Overall amplitude accuracy: ± 1.5 dB

± 0.5 dB

20 to 30 °C
reference level 0 to –50 dBm;
input attenuation 10 dB;
RBW 1 kHz; VBW 1 kHz; after calibration;
preamplifier off

Typical

Bd01ecnerefeRBd4.0±

; frequency > 1 MHz; signal input 0 to –50 dBm;

Resolution bandwidth switching uncertainty

10 Hz - 1 M Hz:

± 0.15 dB

Spurious response

Second harmonic distortion: f<zHM01mBd03+

(second harmonic intercept) +35 dBm

+43 dBm

Third-order intermodulation: +10 dBm

(third order intercept)

Input related spurious: ;reximtupnitalangismBd03–cBd06–<

Residual response: ,noitaunettaFRBd0dnadetanimrettupnImBd38–<

erehni(

10

Reference:RBW=1 kHz, at reference level

c 200 MHz

200 MHz < f
500 MHz < f

c 500 MHz
c 3 GHz

Preamplifier off; signal input –30 dBm;

+13 dBm nominal; 300 MHz to 3 GHz
preamplifier off; signal input –30 dBm

20 to 30 °C

fforeifilpmaerp)tn

11

Sweep

Sweep time

Range: 10 ms to 1000 s Span > 0 Hz

6

ȝs to 200 s Span = 0 Hz (zero span)

Sweep mode: Continuous; single

Trigger source: Free run; video; external

Trigger slope: Positive or negative edge; selectable

Front panel input/output

RF Input

Connector and impedance: N-type female; 50 ohm

VSWR: <1.5 : 1 100 kHz to 3.0 GHz, input attenuator: 10 dB

Calibration output

Amplitude: –10 dBm ± 0.3 dB

Frequency: 50 MHz

Accuracy: Same as frequency reference

Connector and impedance: BNC-type female; 50 ohm

Probe power

Voltage/current: +15 V, 150 mA max

–12.6 V, 150 mA max

USB host

Connector and protocol: A plug; Version 1.1

Rear panel input/output connections

10 MHz reference output

Output amplitude: >0 dBm

Connector and

Output Impedance: BNC-type female; 50 ohm

10 MHz reference input

Input amplitude: –5 dBm to +10 dBm

Frequency lock range: ±5 ppm of specified external

reference input frequency

Connector and

input impedance:

BNC-type female; 50 ohm

USB device

Connector and protocol: B plug; version 1.1

LAN TCP/IP interface

External trigger input

Input amplitude: 5 V TTL level

Connector and

Input impedance: BNC female; 10 k ohm

VGA output:

Connector: D-sub 15-pin female VGA compatible

Screen resolution: 640 x 480

General

Internal data storage: 16 MB nominal

Power supply: 100-240 VAC; 50 to 60 Hz Auto-ranging

Power consumption: < 65 W

Warm-up time: 30 minute

Temperature range: +5 °C to + 45 °C Operating

Weight: 8.4 kg (18 lb) Net approximately; without options

Dimensions: 132.5 x 320 x 400 mm Approximately; without handle

ID Base RJ-45 connector

VGA analog RGB 31.5 kHz horizontal,

60 Hz vertical sync rates; non-interlaced

–20 °C to + 70 °C Storage

5.2 x 12.6 x 15.7 in

12

Options

RF preamplifier(Option PA3)

Frequency range: I MHz to 3 GHz

Peak pulse power: 18 dB

Tracking generator source output (optional)

Warm-up: 45 minutes

Output frequency range: 9 kHz to 3.0 GHz

Output power level

Range: –30 dBm to 0 dBm in 0.1 dB steps

Absolute accuracy: ±0.75dB 20to30°C, at 50 MHz with coupled source

Output flatness: Referenced to 50MHz,

100 kHz to10 MHz ±3dB

10 MHz to3 GHz ± 2 dB

Connector and impedance: N-type female; 50 ohm

VSWR: < 1.5 : 1 100 kHz to 3.0 GHz, input attenuator:

Demodulation

Frequency range: 10 MHz to 3 GHz

Carrier power accuracy: ±2 dBm

±1 dBm

Carrier power displayed
resolution:

0.01 dBm

Nominal

attenuator, referenced to –20 dBm

–20 d Bm

12 dB

Typical

AM measurement

Modulation rate: 20 Hz to 100 kHz

Accuracy: 1 Hz, nominal Modulation rate < 1 kHz

<0.1% modulation rate, nominal Modulation rate > 1 kHz

Depth:

Accuracy:

5 to 95%
±4%

Nominal

FM measurement

Modulation rate: 20 Hz to 200 kHz

Accuracy:

Deviation: 20 to 30

Accuracy:

Typical performance describes additional product performance information that is not covered
by the product warranty. It is performance beyond specification that 80% of the units exhibit
with a 95% confidence level over the temperature range 20 to 30 °C. Typical performance does
not include measurement uncertainty.

Nominal values indicate expected performance, or describe product performance that is useful
in the application of the product, but is not covered by the product warranty.

1 Hz, nominal

<0.1% modulation rate, nominal Modulation rate > 1 kHz

20 Hz to 400 kHz

±4%

Modulation rate < 1 kHz

°C.

Nominal

13

Ordering information

Model number Description

N9320B Spectrum analyzer 9 kHz to 3.0 GHz

Accessories supplied as standard with each analyzer:

· Quick Start Guide

Documentation CD-ROM
USB cable (A-B)
N-BNC adapter
BNC cable
Power cord

Manuals and CD

N9320-84502 N9320B Help Kit
N9320B-AB2 Chinese User’s Guide
N9320B-ABA English User’s Guide

Warranty and service

Calibration

Options

N9320B-PA3 3 GHz preamplifier

N9320B-1HB Handle and bumpers
N9320B-1CM Rack-mount kit
N9320B-1TC Hard transit case

N9320B-UK6 Commerical calibration certificate with testing data

N9320B-AMA

AM/FM demodulation metrics

N9320B-TR1

RF training kit

Standard warranty is one year.

R-51B-001-3C 1-year return-to-Agilent warranty extended to 3 years

R-50C-011-3 Agilent calibration upfront support plan, 3-year coverage

N9320B-TG3 3 GHz tracking generator

·

·

·

·

·

14

Agilent Technologies related
product for manufacturing test, field
maintenance and education

N9310A RF Signal Generator

Low-cost signal generator covering
9 kHz to 3 GHz, with I/Q modulation:
an ideal companion signal source for
the N9320B spectrum analyzer.

Find out today how other Agilent
products will help solve your test
needs.

15

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Remove all doubt

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and genuine parts. You will always have the
utmost confidence in your measurements.

Agilent offers a wide range of additional
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Revised: 11/08/06

Product specifications and descriptions
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© Agilent Technologies, Inc. 2008
Printed in USA, September 09, 2008
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