Описание Agilent Infiniium DSO/MSO 8000 (ENG)

Описание Agilent Infiniium DSO/MSO 8000 (ENG)
Infiniium 8000 Series Oscilloscopes
1-GHz and 600-MHz Real-Time Oscilloscopes
with Integrated Digital Channels
Superior mixed-signal analysis and debug for
your applications
Data Sheet
• 1 GHz and 600 MHz bandwidth
• MSO models with integrated
16 digital channels
• 4 GSa/s sample rate
• Up to 128 Mpts of MegaZoom
fastest, most responsive
• Standard touch screen with
high-definition XGA display
• Extensive application software
• Unrivaled InfiniiMax active
probes and accessories
• Open Windows® XP Pro
operating system
• LXI class C compliant
Key features
• Validate physical and protocol
layers of your I2C, SPI, CAN and
FlexRay communications buses
• Validate your DDR, USB,
Ethernet applications quickly
with automated compliance test
• Quickly debug your FPGA
designs (Xilinx and Altera) with
core-based debug software
• User-defined function provides
seamless gateway to powerful
MATLAB® real-time analysis
Find subtle glitches with 3dimensional viewing (256-level
intensity display)
Find errors faster using your
finger tip with Infiniiscan Zone
Qualify feature
Find signal-integrity-based
logic errors with built-in state
decoding for serial, parallel and
wideband signals
Analyze single-shot events
and wideband RF signals with
integrated wireless 89601A
vector signal analysis test
• Apply trend analysis techniques
with Chart Mode to see how
digital characteristics (i.e. ADC,
counter, address lines, etc.) vary
over time
• Maximize your tool investment
with segmented memory on your
analog and digital signals to
ensure you can capture events
widely spaced in time
• Debug your high-speed designs
with advanced jitter, clock
recovery and eye-diagram
analysis tools
The Standard in General Purpose Lab Scopes
The Infiniium 8000 Series
oscilloscopes offer designers
the industry’s first oscilloscope
family with responsive deep
memory, superior signal viewing
and advanced analysis. The four
digital storage oscilloscopes
(DSOs) and mixed signal
oscilloscopes (MSOs) combine
the best in signal viewing
with patented next-generation
MegaZoom technology that
maps the industry’s deepest and
most responsive memory to a
high-definition display system
that uncovers even the most
subtle details in long, complex
waveforms. Next-generation
MegaZoom technology helps you
capture analog and digital signals
over long time spans, easily view
critical events, and perform
robust signal analysis all with
a single instrument. Several
memory options are available
and are affordably priced to meet
your performance needs and fit
within your budget.
Infiniium 8000 Series oscilloscopes
Sample rate
Standard memory
Maximum memory
600 MHz
4 analog
4 GSa/s
8 Mpts
128 Mpts
600 MHz
4 analog + 16 logic
4 GSa/s
8 Mpts
128 Mpts
1 GHz
4 analog
4 GSa/s
8 Mpts
128 Mpts
1 GHz
4 analog + 16 logic
4 GSa/s
8 Mpts
128 Mpts
Infiniium Benefits
Dramatically speed debug time
with mixed signal oscilloscope
(MSO) models that integrate
16 digital channels
As embedded designs continue
to increase in complexity with
integration of higher-speed
digital buses such as SDRAM
and PCI, along with 16- or
32-bit processors, it becomes
increasingly important for
engineers to have flexible
test instrumentation at their
fingertips. When you need to
isolate events of interest or
monitor critical relationships
between multiple signals, you
need an instrument that is
capable of viewing and triggering
on more than just two or four
signals at a time.
Agilent’s Infiniium MSOs tightly
integrate 4 channels and 16
digital channels in the same
acquisition system to provide
time-correlated viewing and
triggering across 20 channels.
Since an MSO is first and
foremost an oscilloscope, no
trade-offs in scope functionality
are made; the instrument
retains the usability and the real
time waveform capture of an
oscilloscope. MSOs reduce the
need for expensive multi-box
solutions and can dramatically
speed debug time.
MSO viewing and triggering
No matter how complicated the
signals you are dealing with,
the Infiniium MSO comes
with powerful viewing and
triggering capabilities to help you
untangle them. The Infiniium
MSO can trigger across all 16
digital channels and four scope
channels. There are no limitations
on the combination of analog and
digital channels that can be used
for a particular pattern or state
trigger setting. This enables you
to easily isolate and analyze
complex interactions between
digital signals and analog content
in your design. Once your trigger
condition is set, seamlessly view
the cause-and-effect relationships
and make measurements across
all 20 channels.
MSO application
With more sophisticated memory
buses such as SDRAM being
deployed in embedded designs,
it is important to be able to
isolate a particular cycle of the
memory bus that may be causing
a problem. Isolating a SDRAM
write cycle requires triggering
across four digital channels when
CS, CAS, and WE signals are low
and RAS is high, along with one
analog channel on a rising edge
of Clk. You need a second analog
channel to capture a data bit of
the SDRAM bus that you suspect
has signal integrity problems.
With the write cycle isolated,
you can create an eye diagram of
the data bit with fast waveform
update rates and then you can
make worst-case setup and hold
time measurements to reveal
anomalies or glitches. Doing this
type of analysis with a traditional
two- or four-channel oscilloscope,
or with a two-box logic analyzer
and traditional oscilloscope,
would be difficult or impossible.
Infiniium Benefits (continued)
Up to 128 Mpts fast deep memory
Sample rate and memory depth
go hand in hand. Deep memory
in oscilloscopes sustains a high
sample rate over longer time
spans. With up to 128 Mpts
of acquisition memory, the
Infiniium 8000 Series offers
superior resolution for capturing
long, complex waveforms.
Deep memory is critically
important in embedded designs
implementing slow analog with
fast digital, serial buses, and RF
Infiniium’s segmented memory
acquisition mode adds additional
capability to deep memory
acquisition when you are
capturing bursted or packetized
signals. With segmented memory,
only the packets of interest
are captured and stored into
acquisition memory for viewing
and analysis — no valuable
memory is consumed during
periods of inactivity between
packets. Coupled with 128 Mpts
of acquisition memory, thousands
of packets can be captured at the
oscilloscope’s maximum sample
rate over seconds or even days.
With precise time-tags on each
segment, segmented memory
acquisition mode effectively
provides gigabytes of
acquisition memory in a single,
high-sample-rate acquisition
by efficiently utilizing the real
acquisition memory it has.
Infiniium Benefits (continued)
MegaZoom technology enables
ultra-fast waveform update rates
Responsiveness and waveform
update rate slow down
dramatically on traditional deepmemory oscilloscopes when they
capture longer memory records,
making them difficult and
frustrating to use. The Infiniium
8000 Series oscilloscopes feature
patented MegaZoom technology
that provides the fastest
waveform update rates, even
when using the deepest memory
records up to 128 Mpts. At the
heart of MegaZoom technology
is a custom ASIC built into the
acquisition system that performs
data acceleration from the ADC
to waveform memory and display.
With MegaZoom, deep memory
is always available and always
fast, so you never have to think
about manually turning it on and
incurring reduced responsiveness.
Next-generation MegaZoom
provides best-in-class
waveform viewing
In addition to providing the
fastest, most-responsive deep
memory, the Infiniium 8000
Series oscilloscopes feature
best-in-class waveform viewing
powered by next-generation
MegaZoom technology.
Next-generation MegaZoom
supports a high-resolution XGA
display system and maps up
to 128-Mpts of memory to 256
levels of color intensity grades,
delivering unmatched real-time
insight into signal details. Nextgeneration MegaZoom’s dynamic
range in the Z-axis provides
designers a third-dimensional
view of subtle details never
before seen in an analysis-based
oscilloscope. Up to this point,
responsive deep memory capture,
waveform analysis, and superior
signal viewing have not coexisted.
With the Infiniium 8000 Series, you can have it all — deepest memory acquisition
with fast waveform update rates, a high-definition display system, a powerful suite
of application solutions, and integrated mixed-signal analysis capabilities.
Infiniium Features
DSO8064A/MSO8064A, DSO8104A/MSO8104A
InfiniiScan – next generation of
trigger capability
InfiniiScan makes triggering
easy. Just draw boxes with the
Zone Qualify trigger to track
signal behavior. InfiniiScan scans
through thousands of acquired
waveforms per second to help
you isolate anomalous signal
Serial, parallel and wideband
signal decode
Whether you are working on
serial, parallel or wideband
signals, you can use the 8000
Series to decode your waveforms.
When you are working on
parallel waveforms, you can even
customize the bus states to be
displayed on the decode table.
Chart mode feature
Chart mode applies trend
analysis techniques to see how
the digital output (ADC, counter,
address lines, etc.) vary over
time. This method is effective
to quickly find anomalies of the
digital signals. You can also apply
math operators such as “FFT” to
view the frequency domain of the
analog values.
Powerful frequency and
modulation analysis
The 8000 Series provides superior
frequency domain analysis,
RF-signal demodulation and
extensive standard-specific
analysis coverage including
UWB with the optional 89601A
Series VSA software. With
digital and wireless applications
merging, you can use the 8000
Series one-box solution to
validate the time and frequency
Extensive application software suite
The 8000 Series provides wide
application coverage for you to
quickly and easily verify your
designs. Application packages
include DDR, USB, Ethernet,
FlexRay, CAN, SPI, I2C, and FPGA
Infiniium Features (continued)
DSO8064A/MSO8064A, DSO8104A/MSO8104A
Industry’s only segmented memory for
both analog and digital channels
The segment memory acquisition
mode allows you to capture short
bursts at maximum sample rate
while not consuming memory
during periods of inactivity.
The 8000 is the industry’s only
oscilloscopes that support
segmented memory capture on
both analog and digital channels
so you can obtain critical and
correlated timing information
between them.
Bus mode display
Bus mode display on MSOs
allows quick and easy read-out
of hexadecimal representation
of logic signals. Bus state mode
display allows the bus readout
to be updated only upon the edge
of the clock source you select.
Available only with Infiniium
MSO models.
Simple zooming
Zooming with Infiniium’s
graphical user interface is simple
and convenient. Just use the
mouse to draw a box around the
area of interest and click inside.
Zoom uses the full display so you
get meaningful vertical as well
as horizontal resolution gains.
Use multiple zoom boxes to see
deep inside your signal. Zooming
couldn’t be simpler or faster.
Drag-and-drop measurements
It’s simple: drag an icon from
the measurement bar and drop
it on the cycle you want to
measure. You can make up to
five measurements on your
waveforms, on up to five different
cycles. All the measurements
appear at the bottom of the
display with statistics and are
color coded to the channel
you are measuring. Scope
measurements have never been
this powerful or this easy.
Dialog boxes for easy setup
With Infiniium, you don’t need
to navigate through annoying
softkey menus. Dialog boxes
display all the choices you need
for measurement setups, all in
one place. Help is available for
each field, guiding you through
each step.
Infiniium Features (continued)
DSO8064A/MSO8064A, DSO8104A/MSO8104A
AutoMask and mask test
Mask testing is simplified with
AutoMask. Acquire a waveform,
define tolerance limits, and
create a test envelope. Mask
testing provides a pass/fail
comparison of an incoming signal
to the test envelope. Easily test
your design’s conformance to
industry standards with the
communication mask test
kit option.
Advanced triggering
Advanced triggers are essential
when you are investigating known
problems. Infiniium offers a full
range of advanced triggers to
help you isolate and capture
the condition you need to
characterize. Advanced trigger
setups are simplified by using
intuitive dialog boxes with
descriptive graphics.
Color-graded persistence
with histograms
By providing seven levels of color
grades for a visual representation
of waveform distribution, colorgraded persistence makes it easy
to pick out signal anomalies
and see how often they occur.
Histograms quantify both noise
and jitter in your target system.
High/low pass filter
This function applies a realtime digital filter to the source
waveform that you choose. This
filtering feature enhances your
ability to examine important
signal components by filtering out
unwanted frequency components.
QuickMeasure and statistics
Instantly make five common
measurements on your signal,
with easy-to-read statistics, by
pressing the QuickMeas+ button
on the front of your Infiniium.
The measurements displayed can
be easily customized.
Pseudo state
Convert digital timing waveforms
into state waveforms, specifying
the clock edge when your data
is valid. The MSO filters out all
invalid states leaving exclusively
valid states in the waveform
Infiniium Features (continued)
DSO8064A/MSO8064A, DSO8104A/MSO8104A
E-mail on trigger
Infiniium can automatically send
an e-mail with a screen image
of the display when the scope
triggers. You can have your
Infiniium send an e-mail to you
or a message to your cell phone
then control your scope from any
Java™-enabled Web browser with
Infiniium’s Web-enabled feature.
Windows XP Pro open system
Want to run Windows applications
inside your Infiniium scope? All
Infiniium 8000 Series scopes are
based on a Windows XP Pro open
platform that allows you to run
Windows applications inside
the Infiniium to add advanced
analysis and functionality to
the scope.
Web-enabled control
For distributed teams, simply
set up Infiniium on your LAN,
and up to three users can access
it from any Java-enabled Web
browser. No special software is
required. You can easily grab
screen shots for a report, or
troubleshoot designs from a
remote location.
Infiniium IVI-COM driver
For a higher-level of instrument
control, use the Infiniium IVICOM instrument driver in
your application. This IVI-COM
driver takes full advantage of
industry-accepted standards
and is compatible in application
development environments
such as Visual Studio® as well
as in test and measurement
development environments such
as Agilent VEE Pro and National
Instruments LabVIEW®. The
Infiniium IVI-COM Instrument
driver allows for easier use,
higher performance, and
instrument interchangeability
in your oscilloscope control
program. Download the Infiniium
IVI-COM driver for free from
Agilent Developer’s Network at
Large external touchscreen display
An external 15" touchscreen
display with XGA resolution
(1024 x 768 pixels) is now
available as an option. Make
detecting signal anomalies
easier with the larger screen
size and simple control over the
scope functions with the large
Drag-and-drop measurements from
the measurement bar provide an
intuitive way to make a measurement
on a particular cycle of your waveform.
Up to 128 Mpts of MegaZoom fast
deep memory sustains maximum
sample rates for the longest
time captures.
Remote access via Web browser or
programming environment with GPIB
commands over LAN allows you to
access your oscilloscope from any
networked PC.
Touch screen display
comes standard for
mouse-free operation.
Get fast answers to your questions
with the comprehensive built-in
information system. The task-oriented
setup guide provides step-by-step
instructions for several measurement
E-mail-on-trigger allows you to
leave your oscilloscope, and when
that intermittent event is captured,
Infiniium sends you an e-mail that tells
you exactly when it happened with an
attached screen image.
10/100/1000 BaseT LAN interface
lets you easily print to network
printers, save files to network drives,
and control the oscilloscope remotely.
Label waveforms and add comments
to Infiniium’s display for thorough
documentation before saving
screen images.
Context-sensitive right-click menus
allow quick access to oscilloscope
settings, controls, and display
High-definition XGA color display
with 256 levels of intensity uncovers
subtle signal details that most
oscilloscopes won’t show you…
enabled by next-generation MegaZoom
Measurement markers can be easily
controlled via front-panel arrow keys
or dragging and dropping them with
the pointer.
Infiniium: “The Agilent 8000 Series has already
become the most coveted scope in our lab”
Ole Moyer
Application Engineer, On Semiconductor
QuickMeas+ key gives you any
five automated measurements with
the push of a button. You can also
configure this key to print/save screen
images among other functions.
Next-generation MegaZoom
technology enables you to quickly
pan and zoom through the deepest
waveforms for detailed analysis.
Award-winning ease-of-use is made
possible by attention to details like
Infiniium’s analog-like front panel
controls, color-coded to correspond to
displayed waveforms.
USB 2.0 port directly on front panel
makes it easy to save files to a USB
mass storage device.
Hands-free operation is available with
Infiniium’s VoiceControl option.
Internal 40 GB hard drive provides
large storage capacity for storing
waveforms, screen images, and setup
files. An optional removable hard drive
is available for operation in secure
Fast 3.2 GHz CPU with 1 GB RAM
enables two times faster task
processing compared to previous
Optional external DVD-RW drive
allows you to conveniently update
system software and install third-party
application packages.
Open Windows XP Pro platform
enables you to install third-party
applications such as Excel, LabVIEW,
and MATLAB to perform custom
analysis and processing, all inside
the oscilloscope.
XGA video monitor out provides the
ability to run third-party applications
on a large external display while the
internal display continues to display
acquired waveforms.
AutoProbe interface completely
configures your oscilloscope and
provides power to various current and
active probes, including InfiniiMax
active probes.
Mixed signal oscilloscope (MSO)
models seamlessly integrate four
analog scope channels with 16 digital
channels that provide full-width
viewing and triggering across many
embedded signal interactions.
Easy access to advanced features
is enabled by the Windows-based
graphical user interface. In addition,
graphical equivalents to all front-panel
controls are available.
Infiniium Advanced Application Software
The Agilent 8000 Series Infiniium oscilloscope offers a broad portfolio of add-on
applications that enables you to customize your oscilloscope. These applications
are available as add-on options at your initial scope purchase or as user-installed
options at a later time. For more information about these options and to see if new
applications have been added to our portfolio, please visit www.agilent.com/
Xilinx and Altera FPGA dynamic
probe for Infiniium MSO (N5397A
and N5433A)
Agilent’s MSO FPGA dynamic
probe provides rapid internal
FPGA visibility and quick
instrument setup using an
innovative core-assisted
approach. Measurement tasks
that previously took hours can
be done in a few mouse clicks.
In a few seconds you can easily
measure a different set of internal
signals without changing your
FPGA design. The FPGA dynamic
probe also imports signal names
from your FPGA design to the
MSO digital channel labels.
Low-speed serial data analysis
software (Option 007 or N5391A)
The N5391A low-speed serial
data analysis software provides
a fast and easy way to debug
inter-integrated circuit (I2C)
and 2-, 3- or 4-wire serial
peripheral interface (SPI) serial
communication buses. The lowspeed SDA software provides
the ability to capture and
automatically display decoded
serial data in numerical format
synchronized with the analog
or digital waveform, display
decoded packets in a sortable
listing window view with
automatic click and zoom
capability, and perform search
functions for a particular packet
with navigator controls.
Power measurement application
Agilent's power application
provides a full suite of power
measurements that run directly
on the Infiniium 8000 Series oscilloscope. The power measurement
application offers seven modules
to help you characterize your
devices (power device analysis,
input line analysis, output analysis, turn on/off analysis, transient
analysis, modulation analysis and
deskew analysis) in addition to
report generation. Make more
accurate power supply efficiency
measurements by using a U1880A
deskew fixture to deskew your
voltage and current probes.
Infiniium Advanced Application Software (continued)
Automotive serial data analysis
software (Option 008 or N5402A)
The N5402A automotive serial
data analysis software allows
engineers to view both protocol
layer information and physical
layer signal characteristics for
CAN and FlexRay buses inside a
single instrument, the Infiniium
oscilloscope. Numerical decode
values are automatically displayed
and synchronized below the
captured signal’s waveform.
They can also be viewed in a
sortable listing window which
allows automatic click and zoom
capability to the signal of interest
as well as performs search
functions for a particular packet.
The option also provides software
clock recovery and real-time eye
diagram measurements.
InfiniiScan event identification
software (Option 009 or N5415A)
The Agilent InfiniiScan event
identification software quickly and
easily identifies signal integrity
issues. This innovative software
scans through thousands of
acquired waveforms per second
to help isolate anomalous signal
behavior. InfiniiScan can scan for
multiple events simultaneously
with resolution down to 70-ps
events plus automated navigation
to failure events. InfiniiScan
software finders consist of:
measurement, zone qualify,
generic serial, non-monotonic
edge and runt. InfiniiScan goes
beyond the classic limitations
of hardware triggering and deep
High-speed serial data analysis
software (Option 003 or N5384A)
The N5384A high-speed serial
data analysis (SDA) software
provides an effective way to
validate signal integrity for
designs employing high-speed
serial interfaces with embedded
clocks. The high-speed SDA
software, when used with
Infiniium oscilloscopes, allows
you to:
• choose an external reference
clock input
• display the recovered clock
synchronized with the analog
waveform view of the serial
data stream
• build real-time eye diagrams
• unfold real-time eye diagrams
to easily locate failures
versus time
• perform custom mask testing
• make TIE jitter measurements
relative to the recovered clock
or external reference clock
• recover embedded clocks with
first-order PLL, second-order
PLL, or constant frequency
Infiniium Advanced Application Software (continued)
EZJIT jitter analysis software
(Option 002 or E2681A)
The E2681A jitter analysis
option provides the most
commonly needed jitter
measurements, including cyclecycle jitter, N-cycle jitter, period
jitter, time interval
error, setup and hold time,
measurement histograms,
measurement trending and
jitter spectrum. EZJIT provides
a setup wizard that guides you
through the setup of the jitter
measurement, explains how each
jitter measurement works, and
tells you when to use it.
Oscilloscope tools
(E2690B and N5385B)
The Agilent E2690B (US
domestic) and N5385B
(international) advanced time
interval and jitter analysis
software, licensed from Amherst
Systems Associates (ASA),
offers the most powerful and
comprehensive set of tools for
exploratory debug of jitter, and
is remarkably easy to use. ASA’s
oscilloscope tools work in tandem
with Infiniium MSOs to provide
measurements never before
N5392A Ethernet electrical performance
validation and compliance software
The Agilent N5392A Ethernet
electrical performance validation
and compliance software performs
a wide range of electrical tests
to meet the Ethernet electrical
specifications for 1000Base-T,
100Base-TX and 10Base-T systems
as documented in the IEEE
802.3-2005 and ANSIX3.263-1995
• Test setup wizard guides
you through test selection,
configuration, connection,
execution and results reporting
• Fixtures available: N5395B
Ethernet test fixtures and
N5396A jitter test cable
• Supports 1000Base-T disturbing
signal measurements with
the use of 33250A arbitrary
waveform generators
• Supports return loss
measurements with most
HP/Agilent vector network
Infiniium Advanced Application Software (continued)
USB 2.0 performance validation and
compliance software (N5416A)
The Infiniium USB 2.0 electrical
performance validation and
compliance option provides a
fast and reliable way to verify
USB electrical specification
compliance for USB 2.0 devices,
hosts, and hubs. The Infiniium
USB 2.0 test option executes the
official USB-IF MATLAB scripts
with MATLAB’s runtime engine
embedded in the oscilloscope.
Results are displayed in a
flexible report format with
margin analysis. The Infiniium
8000 Series with bandwidths
of 600-MHz and 1 GHz can
appropriately test USB 2.0
low- and full-speed buses. The
E2646A SQiDD test fixture is
available for making the physical
connection between the Infiniium
oscilloscope and the device under
DDR1 compliance test application
The Agilent U7231A DDR1
compliance test application
provides you with a fast and
easy way to characterize and
evaluate the electrical and timing
parameters of your DDR1 design.
The tests performed by U7231A
are based on the JEDEC JESD79E
DDR SDRAM Specification.
• Setup wizard for quick setup
and testing
• Automated measurement and
analysis to save you time and
• Margin analysis to indicate
how close your device comes to
passing or failing the test
• Automatic HTML report
generation for easy
Vector signal analysis software for
Infiniium (89601A)
The 89601A vector signal
analyzer (VSA) software, used
with the Infiniium 8000 Series,
enables flexible signal analysis
and demodulation up to 1-GHz
bandwidth for troubleshooting
wideband modulated signals
in radar and communications
applications. The solution
• Display formats including
spectrogram, phase vs. time,
and frequency vs. time for
rapid insight into complex
signal behavior
• Error vector magnitude
measurements (with 89601A
Option AYA)
• Markers to facilitate frequency,
amplitude, offset, power,
phase, other measurements
• Time gating that allows you
to select specific portion of
signals for signal analysis
• Variable frequency resolution
• Flexible demodulation for
measuring constellation
diagrams, carrier offset, and
frequency error for QPSK
signals, 256-QAM signals and
much more
Infiniium Advanced Application Software (continued)
Infiniium user-defined function
(Option 010 or N5430A)
The Agilent N5430A Infiniium
user-defined function opens
up new possibilities for
mathematical analysis features of
Infiniium by creating a gateway
to MATLAB from MathWorks
(www.mathworks.com/). You can
now add your favorite MATLAB
.m scripts as “math function
operators,” and use them just
like any other standard functions
provided with the Infiniium. The
scope passes data to MATLAB
and then displays the result
back on the screen in real time.
Requires MATLAB software
My Infiniium integration package
(Option 006 or E2699A)
The E2699A My Infiniium
integration package option allows
you to extend the power of your
Infiniium oscilloscope by letting
you launch your application
directly from the oscilloscope’s
front panel or graphical user
interface. Any program that can
be run under Windows XP can
be launched from the Infiniium
scope user interface or front
panel, including applications
such as Agilent VEE, Microsoft
Excel, or MATLAB.
Communication mask test kit
Take the frustration out of
communications testing and
prove your designs conform to
industry standards with the
communication mask test kit
option. Infiniium’s familiar
Windows interface makes it easy
for you to access the masks you
need and configure your tests.
In addition, the communication
mask test kit comes with a set
of electrical communication
adapters to ensure convenient,
reliable, and accurate
connections to
your device under test. Includes
more than 20 industry-standard
ANSI T1.102, ITU-T G.703, and
IEEE 802.3 communication signal
mask templates.
• Seamless gateway to powerful
MATLAB analysis functionality
• Real-time analysis, real-time
• Requires XML programming
and .m script file
• Supports 2 control variables,
and 2 sources
• Supports MATLAB version R14
SP1 and later
Infiniium Advanced Application Software (continued)
VoiceControl software (E2682A)
If you’re making measurements
on target systems with densely
packed ICs, your hands are tied
up holding probes, making it
difficult to turn knobs and press
buttons on the front panel of your
scope. Infiniium’s award-winning
VoiceControl option solves this
problem. Just speak into the
collar-mounted microphone to
Logic analyzer and oscilloscope time
correlation (E5850A optional)
Easily make time correlated
measurements between an
Agilent 16900 Series logic
analysis system or Agilent 16800
Series benchtop logic analyzer
and an Infiniium oscilloscope
without a correlation fixture.
All that is needed are a crossover LAN cable and two BNC
cables. Set the logic analyzer to
trigger the oscilloscope or vice
versa and immediately view
logic timing waveforms aligned
with oscilloscope waveforms
VEE Pro with Infiniium (W1140A)
Agilent VEE Pro is a highly
productive, intuitive, graphical
programming environment
for test-program development.
Looking for an alternative
to complex programming
environments? VEE simplifies
the tasks required for test
development. VEE comes preinstalled with a 30-day free
trial license on all Infiniium
oscilloscopes. VEE runs inside
operate your Infiniium’s frontpanel controls without using your
hands. Simply tell the scope what
you want it to do, using natural
English-language commands, such
as “set channel one to 1.25 volts
per division.” The VoiceControl
system does not require the scope
to be trained to understand a
particular user.
simultaneously on the logic
analyzer display. Move global
markers on the logic analyzer
and watch Infiniium’s tracking
markers move automatically in
synch. Move Infiniium’s tracking
markers and watch the logic
analyzer’s global markers move
in synch. For the most precise
correlation, the optional E5850A
time correlation fixture can be
used to automatically deskew
logic and scope waveforms to the
best possible accuracy.
Infiniium’s open Windows XP
Pro operating system and uses
the PCI bus for fast data transfer
from the oscilloscope acquisition
system to the VEE application,
much faster than GPIB. Six
powerful sample programs are
provided on the Infiniium hard
drive to get you started with
VEE’s advanced measurement
and analysis capabilities with
embedded MATLAB scripts.
Infiniium Active Probing
Probing importance
If you are concerned about
accurate reproduction of your
signals as they appear on your
device under test, you need the
best end-to-end measurement
system starting at the probe
tip. To ensure that you achieve
the full bandwidth of your
oscilloscope, you need to ensure
you are using a probe that shows
you the details of the signal.
For example, the 1-GHz models
(DSO8104A and MSO8104A) will
need an active probe with the
bandwidth of at least 1-GHz. The
1156A or the 1130A active probes
are recommended to achieve the
full system bandwidth of your
scope. In addition, a selection of
probes that specifically enhances
or utilizes Infiniium 8000 Series
are also listed.
For more complete information
on Agilent probing solutions
please see the Oscilloscope
Probes and Accessories Selection
Guide (Agilent publication
number 5989-6162EN).
Recommended probes
Probe bandwidth
System bandwidth
1.5-GHz active probe
1 GHz with MSO8104A and DSO8104A
600 MHz with MSO8064A and DSO8064A
1.5-GHz InfiniiMax probe amplifier
No probe heads included1
1 GHz with MSO8104A and DSO8104A
600 MHz with MSO8064A and DSO8064
Other probe choices
1:1, 1-MΩ passive probe2
10:1, 10-MΩ 600-MHz passive probe
50-MHz, 15-A AC/DC current probe
2-MHz/500-A AC/DC current probe3
10-MHz/150-A AC/DC current probe3
50-MHz/30-A AC/DC current probe3
100-MHz/30-A AC/DC current probe3
200-MHz differential probe
Half-size (17 channel) soft touch connectorless logic probe for MSO models
InfiniiMax extreme temperature extension cable for temperature chamber testing
For a complete probing solution, also order a connectivity kit or individual probe head(s) (E2675A, E2668A, E2669A)
Fine-pitch and IC probing kits available (10072, 10075A)
Order N2779A 3-channel power supply for N2780A series current probe
Infiniium Performance Characteristics
Vertical: scope channels
DSO8064A, MSO8064A, DSO8104A, MSO8104A
Input channels
DSO8064A/DSO8104A: 4 analog
MSO8064A/MSO8104A: 4 analog + 16 digital
Analog bandwidth at 50 Ω (–3 dB)*
Calculated rise time1 at 50 Ω
600 MHz
1 GHz
583 ps
350 ps
Input impedance*
1 MΩ ± 1% (13 pF typical), 50 Ω ± 1.5%
1 mV/div to 5 V/div (1 MΩ)
1 mV/div to 1 V/div (50 Ω)
Input coupling
1 MΩ: AC, DC; 50 Ω:DC
Hardware bandwidth limit
20 MHz
Vertical resolution3
8 bits, ≥12 bits with averaging
Channel-to-channel isolation
(any two channels with
equal V/div settings)
DC to 50 MHz: 50 dB
>50 MHz to 500 MHz: 40 dB
>500 MHz to 1 GHz: 30 dB
DC gain accuracy*2,4
± 1.25% of full scale at full resolution channel scale
Maximum input voltage*
1 MΩ
50 Ω
Offset range
1 MΩ
50 Ω
150 V RMS or DC, CAT I
± 250 V (DC + AC) in AC coupling
5 Vrms, CAT I
Vertical sensitivity
1 mV to <10 mV/div
10 mV to <20 mV/div
20 mV to <100 mV/div
100 mV to <1 V/div
1 V to 5 V/div
1 mV to <5 mV/div
5 mV to <200 mV/div
200 mV to 1 V/div
Available offset
± 10 V
± 20 V
± 100 V
± 20 V
Offset accuracy*2
± (1.25% of channel offset +2% of full scale +1 mV)
Dynamic range
± 8 div from center screen (1 MΩ)
± 12 div from center screen (50 Ω)
DC voltage measurement accuracy*2,4
Dual cursor
Single cursor
± [(DC gain accuracy)+(resolution)]
± [(DC gain accuracy)+(offset accuracy)+(resolution/2)]
Example for single cursor accuracy for 70 mV signal, 10 mV/div, 0 offset: Accuracy =
± [1.25% (80 mV) + (1.25% (0) + 2% (80 mV) + 1 mV ) + (0.4%/2) (80 mV)] = ±3.8 mV
Infiniium Performance Characteristics (continued)
Vertical: analog noise floor
50 Ω
1 MΩ
50 Ω
1 MΩ
50 Ω
1 MΩ
50 Ω
1 MΩ
Full bandwidth
5 mV
10 mV
20 mV
50 mV
100 mV
200 mV
500 mV
204.8 µV
228.3 µV
341.9 µV
957 µV
1.61 mV
3.39 mV
9.59 mV
16.2 mV
219.8 µV
243.9 µV
351.8 µV
966.1 µV
1.64 mV
3.22 mV
9.87 mV
16.03 mV
1.61 mV
1.67 mV
2.44 mV
6.86 mV
11.56 mV
24.3 mV
69.1 mV
116.3 mV
1.65 mV
1.75 mV
2.48 mV
6.91 mV
11.7 mV
22.9 mV
70.6 mV
114.6 mV
285.4 µV
315.5 µV
456.6 µV
1.26 mV
2.13 mV
4.47 mV
12.59 mV
21.39 mV
283.8 µV
312.7 µV
454.9 µV
1.25 mV
2.13 mV
4.19 mV
11.38 mV
21.1 mV
2.30 mV
2.41 mV
3.45 mV
9.51 mV
16.06 mV
33.85 mV
95 mV
160.9 mV
2.22 mV
2.36 mV
3.42 mV
9.45 mV
16.13 mV
31.8 mV
86 mV
158.7 mV
20 MHz hardware
bandwidth limit
5 mV
10 mV
20 mV
50 mV
100 mV
200 mV
500 mV
210 µV
222 µV
365 µV
891 µV
1.47 mV
3.62 mV
8.92 mV
14.68 mV
219 µV
237 µV
371 µV
897 µV
1.48 mV
2.91 mV
8.19 mV
14.9 mV
1.53 mV
1.65 mV
2.67 mV
6.56 mV
10.65 mV
26.4 mV
65.7 mV
106.8 mV
1.69 mV
1.72 mV
2.71 mV
6.66 mV
10.8 mV
21.0 mV
59.9 mV
108.2 mV
126.0 µV
206.0 µV
378.0 µV
1.084 mV
1.97 mV
3.75 mV
10.9 mV
19.8 mV
144.1 µV
212.1 µV
379.4 µV
1.08 mV
1.97 mV
3.93 mV
9.45 mV
19.06 mV
931 µV
1.55 mV
2.85 mV
8.18 mV
14.7 mV
28.2 mV
82.0 mV
149.5 mV
1.06 mV
1.59 mV
2.85 mV
8.16 mV
14.7 mV
29.3 mV
70.8 mV
142.0 mV
Vertical: digital channels
MSO8064A, MSO8104A
Number of channels
16 digital – labeled D15 – D0
Threshold groupings
Pod 1: D7 – D0
Pod 2: D15 – D8
Threshold selections
TTL, 5.0V CMOS, 3.3V CMOS, 2.5V CMOS, ECL, PECL, user defined
User-defined threshold range
±8.00 V in 10 mV increments
Maximum input voltage
±40 V peak CAT I
Threshold accuracy
±(100 mV + 3% of threshold setting)
Input dynamic range
±10 V about threshold
Minimum input voltage swing
500 mV peak-to-peak
Input impedance
100 kΩ ± 2% (~ 8 pF) at probe tip
Channel-to-channel skew
2 ns typical, 3 ns maximum
Glitch detect
≥ 2.5 ns
1 bit
Infiniium Performance Characteristics (continued)
DSO8064A, MSO8064A, DSO8104A, MSO8104A
Main time base range
500 ps/div to 20 s/div
Horizontal position range
0 to ± 200 s
Delayed sweep range
1 ps/div to current main time base setting
4 ps
Time scale accuracy*
±(15 + 2 • (years since manufacture)) ppm
200 ps/div to 20 s/div
Delta-time measurement accuracy*
Values apply to period measurements of 0.5 Vpp sine waves with frequencies equal to 1/2
the oscilloscope bandwidth at 100 mV/div using ≥ 2 GSa/s and sinx/x interpolation
≥ 256 averages, absolute (ps peak)
≥ 256 averages, standard deviation (ps rms) 1.2
No averaging, absolute (ps peak)
No averaging, standard deviation (ps rms) 6.8
Channel-to-channel deskew range
–100 µs to 100 µs
Main, delayed, roll
Reference positions
Left, center, right
Jitter measurement floor
Time interval error
Period jitter
N-cycle, cycle-cycle jitter
7 ps rms
10 ps rms
15 ps rms
5 ps rms
7 ps rms
11 ps rms
Infiniium Performance Characteristics (continued)
Acquisition: scope channels
DSO8064A, MSO8064A, DSO8104A, MSO8104A
Real time sample rate (max)
2 channels
Each channel
4 GSa/s
2 GSa/s
Equivalent time sample rate (max)
250 GSa/s
Memory depth5
Option 080
Option 160
Option 320
Option 640
2 channels/4 channels
8 Mpts/4 Mpts
16 Mpts/8 Mpts
32 Mpts/16 Mpts
64 Mpts/32 Mpts
128 Mpts/64 Mpts
Sampling modes
Real time
Peak detect
High resolution
Equivalent time
Segmented memory
(Sin[x])/x Interpolation
Successive single-shot acquisitions
Captures and displays narrow pulses or glitches at all real time sample rates
Real-time boxcar averaging reduces random noise and increases resolution
Random repetitive sampling (higher time resolution at faster sweep speeds)
Captures bursting signals at maximum sample rate without consuming memory during
periods of inactivity. Selectable number of segments up to 32,768 depending on
memory option installed. Minimum inter-segment time (or the time between the end of
the previous acquisition and the beginning of the next acquisition) of 20 µs.
Selectable from 2 to 4096
Filter on/off selectable FIR digital filter. Digital signal processing adds points between
acquired data points to enhance measurement accuracy and waveform display quality.
BW = sample rate/4
Acquisition: digital channels
MSO8064A, MSO8104A
Maximum input frequency
250 MHz
Maximum real time sample rate
1 GSa/s
Memory depth per channel
32 M
Minimum width glitch detection
2.5 ns
Infiniium Performance Characteristics (continued)
Trigger: scope channels
Level range
DSO8064A, MSO8064A, DSO8104A, MSO8104A
DC to 600 MHz: 0.6 div
600 MHz to 1 GHz: 1.5 div (50 Ω)
DC to 600 MHz: 300 mVp-p
± 8 div from center screen (1 MΩ)
± 8 div from center screen (50 Ω)
Sweep modes
Auto, triggered, single
Trigger coupling
DC, AC, low frequency reject (50 kHz high pass filter), high frequency reject
(50 kHz low pass filter)
Trigger conditioning
Noise reject adds hysteresis to trigger circuitry decreasing sensitivity to noise
Trigger holdoff range
50 ns to 10 s
Trigger jitter
8 ps ± 0.05 ppm x |delay setting| rms
Trigger actions
Specify an action to occur, and the frequency of the action, when a trigger condition occurs.
Actions include: e-mail on trigger and QuickMeas+ functions
Trigger modes
Delay by time
Delay by events
Violation triggers
Pulse width
Triggers on a specified slope and voltage level on any channel, auxiliary trigger or line input.
Triggers on glitches narrower than the other pulses in your waveform by specifying a width
less than your narrowest pulse and a polarity. Minimum glitch width is 500 ps (scope
channels) or 2.5 ns (digital channels). Glitch range settings: <1.5 ns to <10 s (scope
channels), <5 ns to <10 s (digital channels).
Triggers on the line voltage powering the oscilloscope.
Triggers when a specified logical combination of the channels is entered, exited, is present
or absent for a specified period of time or is within a specified time range. Each channel
can have a value of high (H), low (L) or don’t care (X).
Pattern trigger clocked by the rising or falling edge, or both, of one channel.
Logic type: AND or NAND.
The trigger is qualified by an edge. After a specified time delay between 5 ns to 10 s, a
rising or falling edge on any one selected input will generate the trigger.
The trigger is qualified by an edge. After a specified delay between 1 to 16,000,000 rising or
falling edges on any one selected input will generate the trigger.
Trigger on one of the three standard television waveforms: 525 lines/60 Hz (NTSC)
625 lines/50 Hz (PAL), or define a custom waveform.
See trigger mode/glitch for performance characteristics. Greater than and less than
selections available.
Triggers on setup, hold or setup and hold violations in your circuit. Requires a clock and
data signal on any two input channels as trigger sources. High and low thresholds and
setup and/or hold time must then be specified.
Trigger on pulse rising or falling edges that do not cross two voltage levels in greater than
or less than the amount of time specified.
Infiniium Performance Characteristics (continued)
Software trigger (InfiniiScan event identification software (Option 009))
Trigger modes
Generic serial
Zone qualify
Software triggers on NRZ-encoded data up to 80-bit pattern. Supports multiple clock data
recovery methods including constant frequency, 1st order PLL, 2nd order PLL, explicit clock,
explicit 1st order PLL, 2nd order PLL (requires N5384A except for the constant frequency).
Software triggers on the results of the measurement values. For example, when the “pulse
width” measurement is turned on, InfiniiScan measurement software triggers on a glitch
as narrow as 250 ps.
Software triggers on the non-monotonic edge. The non-monotonic edge is specified by
setting a hysteresis value.
Software triggers on a pulse that crosses one threshold but fails to cross a second
threshold before crossing the first again.
Software triggers on the user-defined zones on screen. Zones can be specified as either
“must intersect” or “must not intersect.” Up to four zones can be defined.
Trigger: digital channels
MSO8064A, MSO8104A
Threshold range (user defined)
±8.0 V in 10-mV increments
Threshold accuracy*
±(100 mV + 3% of threshold setting)
Predefined thresholds
TTL=1.4 V, 5.0 V CMOS=2.5 V, 3.3 V CMOS=1.65 V, 2.5 V CMOS=1.25 V, ECL=–1.3 V,
PECL=3.7 V
Infiniium Performance Characteristics (continued)
Measurements and math
Waveform measurements
Voltage (scope channels only)
Time (all channels)
Time (scope channels only)
Mixed (scope channels only)
Frequency domain
Eye pattern
Jitter clock (scope only)
Jitter data (scope only)
Measurement modes
Automatic measurements
Drag and drop measurement toolbar
DSO8064A, MSO8064A, DSO8104A, MSO8104A
Peak-to-peak, minimum, maximum, average, RMS, amplitude, base, top, overshoot,
preshoot, upper, middle, lower, runt (with InfiniiScan)
Period, frequency, positive width, negative width, duty cycle, delta time
Rise time, fall time, Tmin, Tmax, channel-to-channel phase, setup time, hold time
Area, slew rate
FFT frequency, FFT magnitude, FFT delta frequency, FFT delta magnitude
Eye height, eye width, jitter, crossing %, Q-factor, duty cycle distortion
Cycle-cycle jitter, N-cycle jitter, cycle-cycle +width, cycle-cycle –width, cycle-cycle duty
cycle (all with EZJIT)
Time interval error (TIE), data rate, unit interval (all with EZJIT)
Measure menu access to all measurements, five measurements can be displayed
simultaneously with statistics
Front-panel button activates five pre-selected or five user-defined automatic measur ments
Measurement toolbar with common measurement icons that can be dragged and dropped
onto a particular displayed waveform cycle
Displays the mean, standard deviation, minimum, maximum range, and number of
measurement values for the displayed automatic measurements
Histograms (scope channels only)
Vertical (for timing and jitter measurements) or horizontal (noise and amplitude change)
modes, regions are defined using waveform markers. Measurements included: mean,
standard deviation, mode, peak-to-peak, median, total hits, peak (area of most hits), and
mean ± 1, 2, and 3 sigma
Mask testing
Allows pass/fail testing to user-defined or Agilent-supplied waveform templates.
allows user to create a mask template from a captured waveform and define tolerance
range in time/voltage or percentage. Test modes include test forever, test to specified time
or event limit, and stop on failure. Communications mask test kit option provides a set of
ITU-T G.703, ANSI T1.102, and IEEE 802.3 industry-standard masks for compliance testing.
Marker modes
Manual markers, track waveform data, track measurements
Waveform math
Four functions f1-f4. Select from add, average, common mode, differentiate, divide, FFT
magnitude, FFT phase, high pass filter, integrate, invert, low-pass filter, magnify, min, max,
multiply, smoothing, subtract, versus
Frequency range7
Frequency resolution
Best resolution at maximum sample rate
Frequency accuracy
Signal-to-noise ratio8
DC to 2 GHz (2 channels), DC to 1 GHz (each channel)
Resolution = sample rate/memory depth
4 GSa/s/32 M = 125 Hz
(1/2 frequency resolution)+(5x10-5)(signal frequency)
80 dB at 1 Mpts memory depth
Window modes
Hanning, flattop, rectangular
Infiniium Performance Characteristics (continued)
Intensity grayscale:
Waveform styles
Waveform update rate
Real time mode (fastest)
Real time mode (nominal)
8.4 inch color XGA TFT-LCD with touch screen
256-level intensity-graded display
1024 pixels horizontally x 768 pixels vertically
Up to 12 labels, with up to 100 characters each, can be inserted into the waveform area
Can display 1, 2 or 4 waveform grids
Connected dots, dots, infinite persistence, color graded infinite persistence. Includes up to
256 levels of intensity-graded waveforms.
5,600 waveforms/sec (memory depth: 16 pts, sampling rate: 2 GS/s, time/div: 500 ps,
connect dots: off, sin(x)/x: off, color graded: off)
2,000 waveforms/sec (memory depth: 64 kpts, sampling rate: 4 GS/s, time/div: 500 ps,
connect dots: on, sin(x)/x: on, color graded: off)
Computer system and peripherals, I/O ports
Computer system and peripherals
Operating system
PC system memory
File types
I/O ports
RS-232 (serial)
USB 2.0 Hi-Speed
Dual-monitor video output
Auxiliary output
Trigger output
LXI compliance
Windows XP Pro
Intel® Celeron™ 3.2-GHz microprocessor
≥ 40-Gb internal hard drive (optional removable hard drive), external DVD-RW drive
Logitech optical USB mouse, compact keyboard and stylus supplied. All Infiniium
models support any Windows-compatible input device with a serial, PS/2 or
USB interface.
Compressed internal format (*.wfm), comma separated values (*.csv), tab separated
values (*.tsv) and Y value files (*.txt)
RJ-45 connector, supports 10Base-T, 100Base-T, and 1000Base-T. Enables Web-enabled
remote control, e-mail on trigger or demand, data/file transfers and network printing.
IEEE 488.2, fully programmable
COM1, printer and pointing device support
Centronics printer port
Two ports. Supports PS/2 pointing and input devices.
One port on front panel plus four ports on rear panel. All USB 2.0 Hi-Speed compatible.
Allows connection of USB peripherals like storage devices and pointing devices while the
oscilloscope is on.
15 pin XGA, full color output of scope waveform display or dual monitor video output (up to
SXGA resolution with a dual monitor use)
DC (± 2.4 V); square wave (~715 Hz and 456 MHz); trigger output (255 mV p-p into 50 Ω)
5 V 50 Ω back-terminated
Functional Class C
Infiniium Performance Characteristics (continued)
General characteristics
DSO8064A, MSO8064A, DSO8104A, MSO8104A
0 °C to + 50 °C
–40 °C to + 70 °C
Up to 95% relative humidity (non-condensing) at +40 °C
Up to 90% relative humidity at +65 °C
Up to 4,600 meters (15,000 feet)
Up to 15,300 meters (50,000 feet)
Random vibration 5-500 Hz, 10 minutes per axis, 0.3 g (rms)
Random vibration 5-500 Hz, 10 minutes per axis, 2.41 g (rms); resonant search 5-500 Hz,
swept sine, 1 octave/minute sweep rate, (0.75 g), 5 minute resonant dwell at 4 resonances
per axis
100-240 VAC, ± 10%, Cat II, 47 to 63 Hz; Max power dissipated: 440 W
Net: 13.9 kg (30.6 lbs.)
Shipping: 16.4 kg (36.1 lbs.)
Dimensions (excluding handle)
Height: 216 mm (8.5 in); width: 437 mm (17.19 in); depth: 440 mm (17.34 in)
Meets IEC1010-1 +A2, CSA certified to C22.2 No.1010.1, Self certified to UL 3111
Denotes warranted specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature.
Rise time figures are calculated from t r = 0.35/bandwidth.
Magnification is used below 5 mV/div range. Below 5 mV/div, full scale is defined as 40 mV. Full scale is defined as the major attenuator setting above an intermediate
setting. (Major settings 50 Ω: 10 mV, 20 mV, 50 mV, 100 mV, 200 mV, 500 mV, 1 V, 1 MΩ: all of the above plus 2 V).
Vertical resolution for 8 bits = 0.4% of full scale, for 12 bits = 0.024% of full scale.
The dc gain accuracy decreases 0.08% of full scale per degree C from the calibration temperature.
Maximum 2-channel memory depth only available at maximum 2-channel sample rate. Maximum each channel memory depth available at any selectable sample rate.
Valid for vertical ranges > 5 mV/div.
FFT amplitude readings are affected by input amplifier roll-off; DSO8064A and MSO8064A: –3 dB at 600 MHz, with amplitude decreasing as frequency increases above 600
MHz; DSO8104A and MSO8104A: –3 dB at 1 GHz, with amplitude decreasing as frequency increases above 1 GHz.
Noise floor varies with memory depth and with averaging on or off.
Infiniium Ordering Information
8000 Series oscilloscopes
600 MHz
600 MHz
1 GHz
1 GHz
Input channels
4 analog
4 analog + 16 logic
4 analog
4 analog + 16 logic
Maximum sample
4 GSa/s
4 GSa/s
4 GSa/s
4 GSa/s
Maximum memory
128 Mpts
128 Mpts
128 Mpts
128 Mpts
Standard memory
8 Mpts
8 Mpts
8 Mpts
8 Mpts
The above models include: optical USB mouse, condensed keyboard, User’s Quick Start Guide in English language (other languages also available),
documentation CD (Service Guide, Programmer’s Guide), information system in English language, accessory pouch (54810-68701), front panel cover, power
cord, one-year warranty, 10073C 10:1 passive probe (qty 4) and with MSO version 54826-68701 logic cable kit.
Recommended probes
1.5 GHz active probe
1.5 GHz InfiniiMax probe amplifier – No probe heads included1
For a complete probing solution, also order a connectivity kit or individual probe head(s) (E2675A, E2668A, E2669A)
For more information on selecting the right probe see page 17.
Memory options
Option number - factory installed
Option number - user installed
16 Mpts on 2 channels, 8 Mpts on 4 channels
32 Mpts on 2 channels, 16 Mpts on 4 channels
64 Mpts on 2 channels, 32 Mpts on 4 channels
128 Mpts on 2 channels, 64 Mpts on 4 channels
Memory can be added both at the time of initial purchase and after with a user installed option.
For a comprehensive list and selection criteria, refer to the Oscilloscopes Probes and Accessories Selection Guide (Agilent publication
number 5989-6162EN). Or visit our Web site at www.agilent.com/find/scope_probes.
Infiniium Ordering Information (continued)
Application options
Digital analysis
FPGA dynamic probe for Xilinx
FPGA dynamic probe for Altera
Serial data analysis
Option 007 or N5391A
Low-speed serial data analysis software for I2C and SPI serial communication buses
Option 008 or N5402A
Automotive serial data analysis software
Option 003 or N5384A
High-speed serial data analysis software for CAN and FlexRay serial communication buses
Jitter analysis
Option 002 or E2681A
EZJIT jitter analysis software
Oscilloscope tools including advanced time interval and jitter analysis software from
Amherst Systems Associates
Compliance testing
Communication mask test kit
Ethernet performance validation and compliance software
USB 2.0 electrical performance validation and compliance software
DDR1 compliance test application
Power measurement analysis
Power measurement analysis for Infiniium oscilloscopes
Option 001
Oscilloscope-locked license
Option 002
PC-locked license
Vector signal analysis
VSA software for Infiniium
Advanced triggering
Option 009 or N5415A
InfiniiScan event identification software
User customized analysis software
Option 010 or N5430A
User-defined function - seamless linkage to MATLAB to support custom functions
Option 006 or E2699A
My Infiniium integration package enabling you to launch and integrate Windows application
directly from your scope
Hands free operation
VoiceControl software
Infiniium Ordering Information (continued)
Other options
Option 017
(factory installed)
≥ 40 GB removable hard disk drive. Replaces ≥ 40 GB internal hard disk with a ≥ 40 GB
removable hard disk. Order the N5422A for additional hard disk drive cartridges that contain
the full Windows operating system and oscilloscope application.
Option 019 or N5453A
External touchscreen display for Infiniium oscilloscopes
Option 020 or N5437A
External DVD-RW drive
Rackmount kit
ANSI Z540-compliant calibration
1-year return-to-Agilent warranty extended to 3 years
Related Literature
Publication title
Publication type
Publication number
Infiniium Probes, Accessories and Options
Data sheet
Agilent Oscilloscope Probes and Accessories
Selection guide
Agilent 8000 Series Oscilloscopes
Industry Compliance and Analysis Applications for Infiniium Oscilloscopes
N5450A InfiniiMax Extreme Temperature Extension Cable
Data sheet
N5397A Xilinx FPGA Dynamic Probe for 8000 Series
Data sheet
N5433A Altera FPGA Dynamic Probe for 8000 Series
Data sheet
E2681A EZJIT Jitter Analysis Software
Data sheet
E2690B Oscilloscope Tools Software with Advanced Jitter Analysis
Data sheet
N5384A High-Speed Serial Data Analysis and Clock Recovery Software
Data sheet
N5391A Low-Speed Serial Data Analysis Software for I2C and SPI
Data sheet
N5402A Automotive Serial Data Analysis Software
Data sheet
89601A Infiniium Oscilloscopes and 89601A Vector Signal Analysis Software
Data sheet
N5392A Ethernet Electrical Performance Validation and Compliance Software
Data sheet
N5416A USB 2.0 Electrical Performance Validation and Compliance Software
Data sheet
U7233A DDR1 Compliance Test Application
Data sheet
E2699A My Infiniium Integration Software
Data sheet
N5415A InfiniiScan Event Identification Software
Data sheet
N5430A Infiniium User-Defined Function Application Software
Data sheet
Agilent Mixed Signal Oscilloscopes: 6-Minute Video Demonstration
Video CD
Agilent Technologies Oscilloscopes
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Revised: July 17, 2008
Java is a U.S. trademark of Sun Microsystems, Inc.
MATLAB is a U.S. registered trademark of The MathWorks, Inc.
Product specifications and descriptions
in this document subject to change
without notice.
LabView is a U.S. registered trademark of National Instruments.
Intel is a U.S. registered trademark and Celeron is a U.S. trademark of Intel Corporation.
Visual Studio is a registered trademark of Microsoft Corporation in the United States
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© Agilent Technologies, Inc. 2008
Printed in USA, August 19, 2008
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