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Infiniium 80000 Series Oscilloscopes
InfiniiMax II Series Probes
13, 12, 10, and 8 GHz Oscilloscope
Measurement Systems
Data Sheet
•
13, 12, 10, and 8 GHz bandwidth
real-time oscilloscopes with up
to 40 GSa/s sample rate
•
Up to 2 Mpts MegaZoom deep
memory at 40 GSa/s sample
rates and 64 Mpts MegaZoom
deep memory at 4 GSa/s
•
InfiniiMax II probing system with
up to 13 GHz bandwidth
•
Trigger jitter less than 500 fs rms
•
Lowest vertical noise floor and
lowest jitter measurement floor
in the industry
•
Easy-to-use, easy-to-understand
jitter analysis option
•
Electronic attenuators eliminate
the reliability and ESD discharge
concerns associated with
mechanical attenuator relays
•
Unrivaled InfiniiMax probing
accessories support browsing,
solder-in, socket use, and SMA
use models all at 12 GHz or
greater bandwidth
•
Award-winning user
interface based on Microsoft
Windows
®
XP Pro supports
CD-RW, dual-monitor, and
third-party software packages
Agilent DSOs
Breaking the 10 GHz
Performance Barrier
The highest signal integrity
measurement system available
An oscilloscope and probing
system with bandwidths up to
13 GHz and a maximum sample
rate of 40 GSa/s is required to
meet the performance needs of
engineers designing state of the art
high-speed serial communication
links and other ultra-high-speed
electronic systems. Modern
industry bus standards such as
Fibre Channel, Fully Buffered
DIMM, Serial ATA, Serial Attached
SCSI, and PCI-Express have
performance points in the 4 to
8.5 Gb/s range. Proprietary
high-speed serial buses can
also have clock rates in the 4 to
8.5 Gb/s range as well as rise
times faster than 50 ps. Scopes
with bandwidths of 8, 10, 12, or
13 GHz are required to capture
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Benefits
the frequency harmonics of such
high-speed signals and make
accurate and repeatable
measurements on them.
Agilent’s award-winning InfiniiMax
probing system set the standard
for probing systems and the rest
of the oscilloscope industry is
now following this trend-setting
architecture. Agilent’s InfiniiMax II
probing system takes this
innovation to an unmatched level
of performance and usability.
InfiniiMax: The World’s Best
High-Speed Probing System
EDN Magazine has awarded
Agilent’s InfiniiMax active probe
system the 2002 Innovation of the
Year Award.
U.S. Navy imagery used in illustration without endorsement expressed or implied.
80000 Series Infiniium oscilloscopes
Model Bandwidth Channels Maximum sample rate
DSO81304A 13 GHz real-time DSP enhanced on 2 channels 40 GSa/s
12 GHz real-time on 2 channels 40 GSa/s
13 GHz equivalent-time on 4 channels 500 fs point spacing
8 GHz real-time on 4 channels 20 GSa/s
DSO81204A 12 GHz real-time on 2 channels 40 GSa/s
12 GHz equivalent-time on 4 channels 500 fs point spacing
8 GHz real-time on 4 channels 20 GSa/s
DSO81004A 10 GHz real-time on 2 channels 40 GSa/s
10 GHz equivalent-time on 4 channels 500 fs point spacing
8 GHz real-time on 4 channels 20 GSa/s
DSO80804A 8 GHz real-time on 2 channels 40 GSa/s
8 GHz equivalent-time on 4 channels 500 fs point spacing
8 GHz real-time on 4 channels 20 GSa/s
Maximum memory depth for all DSO 80000 Series
Standard acquisition memory 0.5 Mpts on 2 channels, 0.25 Mpts on 4 channels
Optional acquisition memory 2 Mpts on 2 channels, 1 Mpts on 4 channels
this option also enables 64 Mpts on 2 channels at 4 GSa/s, 32 Mpts on 4 channels ≤ 2 GSa/s
Maximum memory in equivalent-time modes always 0.25 Mpts per channel
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InfiniiMax II Series probe amplifiers
Model Bandwidth Description
1169A 12 GHz (spec) 13 GHz (typical) InfiniiMax II probe amplifier – order one or more probe heads
1168A 10 GHz InfiniiMax II probe amplifier – order one or more probe heads
InfiniiMax probe amplifier specifications: Dynamic range = 3.3 V, DC offset range = ± 16 V, maximum voltage = ± 30 V
InfiniiMax II Series probe heads
InfiniiMax II Series probe heads are recommended for 1169A/68A probe amplifiers. When used with a DSO81304A, the
N5380A, N5381A, and N5382A will typically achieve 13 GHz bandwidth.
Differential measurement Single-ended measurement
Probe head Model number (BW, input C, input R) (BW, input C, input R)
Hi-BW differential SMA N5380A 12 GHz 12 GHz
Hi-BW differential solder-in N5381A 12 GHz, 0.21 pF, 50 kΩ 12 GHz, 0.35 pF, 25 kΩ
Hi-BW differential browser N5382A 12 GHz, 0.21 pF, 50 kΩ 12 GHz, 0.35 pF, 25 kΩ
InfiniiMax I Series probe heads can be used with 1169A/68A probe amplifiers with limitations.
Differential measurement Single-ended measurement
Probe head Model number (BW, input C, input R) (BW, input C, input R)
Differential solder-in E2677A 12 GHz, 0.27 pF, 50 kΩ 12 GHz, 0.44 pF, 25 kΩ
(Higher loading, high frequency response variation)
Differential socket E2678A 12 GHz, 0.34 pF, 50 kΩ 12 GHz, 0.56 pF, 25 kΩ
(Higher loading)
Differential browser – wide span E2675A 6 GHz, 0.32 pF, 50 kΩ 6 GHz, 0.57 pF, 25 kΩ
Differential SMA E2695A 8 GHz 8 GHz
Single-ended solder-in E2679A N/A 6 GHz, 0.50 pF, 25 kΩ
(must bandlimit input to ≤ 5.2 GHz)
Single-ended browser E2676A N/A 6 GHz, 0.67 pF, 25 kΩ
Benefits (continued)
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Benefits (continued)
Example 1: How much bandwidth do I need to measure a given rise/fall time accurately?
Rise/fall time (20 - 80%) 3% accuracy 5% accuracy 10% accuracy
100 ps 5.6 GHz 4.8 GHz 4.0 GHz
75 ps 7.5 GHz 6.4 GHz 5.3 GHz
60 ps 9.3 GHz 8.0 GHz 6.7 GHz
50 ps 11.2 GHz 9.6 GHz 8.0 GHz
40 ps 14.0 GHz 12.0 GHz 10.0 GHz
30 ps 18.7 GHz 16.0 GHz 13.3 GHz
Notes:
Maximum signal frequency content = 0.4/rise time (20 - 80%)
Scope bandwidth required = 1.4 x maximum signal frequency for 3% accuracy measurements
Scope bandwidth required = 1.2 x maximum signal frequency for 5% accuracy measurements
Scope bandwidth required = 1.0 x maximum signal frequency for 10% accuracy measurements
Example 2: How much bandwidth do I need for a given high-speed serial bus clock rate?
Fundamental frequency 3rd harmonic frequency 5th harmonic frequency
Serial bus clock rate of data signal of data signal of data signal
2.5 Gb/s 1.25 GHz 3.75 GHz 6.25 GHz
4.25 Gb/s 2.125 GHz 6.375 GHz 10.625 GHz
5.0 Gb/s 2.5 GHz 7.5 GHz 12.5 GHz
6.0 Gb/s 3.0 GHz 9.0 GHz 15.0 GHz
7.0 Gb/s 3.5 GHz 10.5 GHz 17.5 GHz
8.5 Gb/s 4.25 GHz 12.75 GHz 21.25 GHz
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Key trends in the
electronics market
• Technologies with dramatically
increased clock speeds and
edge rates have emerged.
• Very fast serial differential
buses are being used to save
board space, reduce power and
provide better noise immunity.
• Densely packed circuit boards,
often with stacked daughter
boards, increase the need to
probe in very hard-to-reach
places.
Benefits (continued)
Key benefits of the 80000 and
InfiniiMax II Series
• Up to 13 GHz bandwidth
can track even the fastest
signal speeds.
• A sample rate of up to 40 GSa/s
can measure high-speed
differential buses reliably
and repeatedly.
• The innovative InfiniiMax II
probing system supports even
the most demanding mechanical
access requirements without
sacrificing performance.
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• The full real-time bandwidth of
the oscilloscope is supported
by up to a 40 GSa/s sample rate.
• This industry-leading sample
rate produces more accurate
and repeatable measurements,
avoiding measurement error
and signal aliasing due to under
sampling, as shown above.
This is especially important
for high-quality jitter
measurements.
• The combination of up to
13 GHz bandwidth and 40 GSa/s
sample rate makes the 80000
Series ideal for designs that
include: PCI-Express II, Serial
ATA II/III, 6 Gbs SAS, 4.25 and
8.5 Gbs Fibre Channel, 4.8 Gbs
Fully Buffered DIMM, or other
high-speed electronic signals.
The DSO 80000 Series Produces Accurate and Repeatable Measurements
DSO 80000 Series measurements
Serial clock rate Eye width Data TIE pk-pk Data TIE rms
5 Gb/s (DSO81004A) 189 ps 12.6 ps 1.3 ps
8 Gb/s (DSO81204A) 115 ps 12.9 ps 1.3 ps
5 Gb/s real-time eye diagram with DSO81004A
8 Gb/s real-time eye diagram with DSO81204A
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E2681A EZJIT Jitter analysis software
Includes the following key measurements:
cycle-to-cycle jitter, n-cycle jitter, period jitter, time
interval error, setup and hold time, measurement
histograms, measurement trending, and
jitter frequency spectrum.
E2690A Timing Interval and Jitter Analysis software
Measure the worst-case jitter in serial data streams,
PLLs, and high-speed clock designs. Measurements
include line graph, histogram, jitter spectrum,
RJ/DJ separation, and bathtub curve. Provides
the most comprehensive set of jitter analysis
measurements and views.
Jitter Application Software Packages
N5400A EZJIT Plus Jitter analysis software
Quickly separate random and deterministic jitter
components and estimate total jitter at low BER for
standards compliance. Automatic clock recovery
and pattern detection, an easy-to-use setup wizard
and graphical display views integrated into the
Infiniium oscilloscope software further simplify
navigation and RJ/DJ analysis.
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Infiniium: “It’s like someone who sits down and actually uses
a scope designed this one.”
Steve Montgomery, Director of Engineering, Linx Technologies
Up to 40 GSa/s sample rate on two channels
significantly reduces the chances of aliasing,
increases measurement accuracy, and delivers the
full real-time bandwidth of the oscilloscope on two
channels simultaneously.
Four channels at 20 GSa/s with 8 GHz real-time
bandwidth or full bandwidth equivalent time modes
are also available.
Get fast answers to your questions with the built-in
information system. Infiniium’s task-oriented Setup
Guide provides step-by-step instructions for several
advanced measurements and procedures.
See your signal more clearly with a large (8.4-inch)
high-resolution color display. Infiniium’s bright TFT
display with anti-glare coating lets you see the
details of your signal from all angles.
20 Gb hard drive, 3.5” 1.44 MB floppy drive and
rear USB port make it easy to save setup files, data
files, screen shots, etc.
Identify anomalies easily with color-graded
persistence, a colorful visual representation of
waveform distribution.
Label waveforms and add notes to your screen
captures — Infiniium’s keyboard makes it easy.
Drag and drop markers with your mouse or use
the arrow keys.
Easy access to advanced features like math
functions and FFTs, is provided by the Windows-based
graphical user interface. This GUI also gives you
unique capabilities like drag-and-drop measurements
and zooming, and offers a graphical equivalent to all
front panel controls.
Remote access with Web-enabled connectivity,
e-mail on trigger, and GPIB over LAN allows you to
access your scope from remote locations.
64 Mpts acquisition memory at 4 GSa/s
sample rate on two channels allows you to capture
long time windows at high resolution – such as
identifying glitches due to a power supply start-up
from reset.
QuickMeas+ key gives you any five automated
measurements with a push of a button. You can
also configure this key to print/save screen shots,
save waveforms, or load a favorite setup.
Infiniium: Award-winning scopes
Infiniium has received ten industry
awards to date, including EDN’s
“Innovation of the Year” award
(twice) and T&M World’s “Best in
Test.” Agilent is committed to
breaking new ground and providing
tools that bring unique value to
our customers.
Page 9
Zoom and search with instant response. Zoom into
your signal using the horizontal scale knob and
search through your waveform with the position
knob. MegaZoom technology allows you to find
your area of interest quickly and easily – even with
64 Mpts waveforms.
Built-in CD-R drive on rear panel allows you to
update the system software conveniently and can
be used to install third-party
application packages.
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Hands-free operation with the Infiniium
VoiceControl option. Just speak into the
microphone to operate front-panel controls.
Segmented memory acquisition mode captures
bursting signals at maximum sample rate without
consuming memory during periods of inactivity.
Removable hard disk drive option is available for
added data security.
Install third-party software packages such as
Excel, LabView, Agilent Vee, MATLAB®, anti-virus
software, and more to perform customized
processing and automation of your oscilloscope
or to make the scope compliant to the network
environment of your company.
An external monitor allows you to run third-party
applications on a large, high-resolution display
while using the scope’s built-in monitor for
high-speed waveform display.
Windows® XP Pro operating system.
A familiar interface makes simple tasks simple.
Infiniium’s analog-like front panel has a full set
of controls color coded to the waveforms and
measurements, making simple tasks simple.
One-year standard warranty and a variety of
Agilent support options protect your investment
for the long term.
10 MHz reference clock can be input (optional)
to or output (standard) from the scope to allow
precise timebase synchronization with RF
instruments or logic analyzers.
A new 18 GHz, BNC-compatible connector
provides a high signal fidelity connection to Agilent
active probes, SMA adapters, and standard BNCs.
AutoProbe interface completely configures your
scope for use with the InfiniiMax probing system
and previous generation Agilent active probes.
10/100 Mbps LAN interface lets you easily print
waveforms on networked printers, save your results
on your office PC, share information with others,
and control the scope over the Web.
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Two new high-bandwidth InfiniiMax II
Series probe amplifiers have been added to
the InfiniiMax product line. InfiniiMax I
probe amplifiers and probe heads can also
be used with DSO 80000 Series scopes for
lower performance applications.
InfiniiMax II: The World’s Best High-Speed Probing System Just Got Better
12 GHz Hi-BW
differential
SMA probe
head provides
maximum
bandwidth for
SMA fixtured
differential
pairs.
12 GHz Hi-BW solder-in differential probe
head provides maximum bandwidth and
minimizes capacitive loading to ≤ 210 fF.
Variable spacing from 0.2 to 3.3 mm (8 to
130 mills).
12 GHz Hi-BW differential browser provides
maximum bandwidth for hand-held or probe
holder use. Variable spacing from 0.2 to
3.3 mm (8 to 130 mills).
InfiniiMax offers you the highest performance
available for measuring differential and
single-ended signals, with flexible connectivity
solutions for today’s high-density ICs and
circuit boards.
InfiniiMax probes have fully characterized
performance for all of their various probe heads.
This includes:
• Swept frequency response plot
• Common mode rejection vs. frequency plot
• Impedance vs. frequency plot
• Time-domain probe loading plot
• Time-domain probe tracking plot
One-year standard warranty on active probes and
a variety of Agilent support options to choose from.
Controlled impedance transmission lines in every
probe head deliver full performance versus the
performance limitations produced by traditional
wire accessories.
Probe interface software allows you to save the
calibration information for up to 10 different probe
heads per channel and will automatically retrieve
calibration data for a probe amplifier as it is
attached to the scope.
High-input impedance active probes minimize
loading, support differential measurements and DC
offset, and can compensate for cable loss.
Probe calibration software delivers the most
accurate probe measurements, linear phase
response and allows various probe combinations
to be deskewed to the same reference time.
InfiniiMax II probe heads
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The 54006A 7.5 GHz resistive divider probe is
available as a low-cost probing alternative for
casual inspection of signals.
A flat frequency response over the entire probe
bandwidth eliminates the distortion and
frequency-dependent loading effects that are
present in probes that have an in-band resonance.
6 GHz differential browser is the best choice for
general-purpose trouble-shooting of differential or
single-ended signals with z-axis compliance and
variable spacing from 0.25 - 5.80 mm (10 230 mills).
12 GHz solder-in differential probe head can be
attached to very small geometry circuits
for measuring both single-ended and
differential signals.
12 GHz differential socket probe head can be
used to measure either differential or
single-ended signals.
Extremely small single-ended, solder-in probe
heads support 6 GHz measurements of even the
hardest-to-reach single-ended signals.
Single-ended browser is the best choice for
general purpose probing of single-ended signals
when small size of the probe head is the primary
consideration. Bandwidths up to 6 GHz can be
obtained in this configuration.
8 GHz differential SMA probe head allows you to
connect two SMA cables to make a differential
measurement on a single scope channel.
InfiniMax I probe heads
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Infiniium 80000 Series Performance Characteristics
Vertical
Input channels 4
Analog bandwidth (–3 dB)* 81304A: 12 GHz 81204A: 12 GHz 81004A: 10 GHz 80804A: 8 GHz
DSP enhanced bandwidth
9
81304A: 13 GHz using DSP enhanced bandwidth mode
Rise time/fall time (20 - 80%) 81304A: 23 ps 81204A: 25 ps 81004A: 30 ps 80804A: 38 ps
(10 - 90%) 81304A: 33 ps 81204A: 36 ps 81004A: 42 ps 80804A: 54 ps
Input impedance 50 Ω ±3%
Sensitivity
1
1 mV/div to 1 V/div
Input coupling DC
Vertical resolution
2
8 bits, ≥ 12 bits with averaging
Channel to channel isolation DC to 3 GHz: 60 dB
(any two channels with equal V/div settings) 3 GHz to 8 GHz: 40 dB
8 GHz to BW: 35 dB
DC gain accuracy*
1
± 2% of full scale at full resolution channel scale
Maximum input voltage* ± 5 V
Offset range Vertical sensitivity: Available offset:
0 mV/div to ≤ 40 mV/div ± 0.4 V
> 40 mV/div to ≤ 75 mV/div ± 0.9 V
> 75 mV/div to ≤ 130 mV/div ± 1.6 V
> 130 mV/div to ≤ 240 mV/div ± 3.0 V
> 240 mV/div ± 4.0 V
Offset accuracy*
1
≤ 3.5 V: ± (2% of channel offset + 1% of full scale) +1 mV
> 3.5 V: ± (2% of channel offset + 1% of full scale)
Dynamic range ± 4 div from center screen
DC voltage measurement accuracy*
1
Dual cursor ± [(DC gain accuracy)+(resolution)]
Single cursor ± [(DC gain accuracy)+(offset accuracy)+(resolution/2)]
RMS noise floor (scope only) Volts/div DSO80804A DSO81004A DSO81204A DSO81304A
5 mV 280 µV 340 µV 390 µV 400 µV
10 mV 310 µV 380 µV 440 µV 480 µV
20 mV 470 µV 530 µV 610 µV 720 µV
50 mV 1.1 mV 1.2 mV 1.4 mV 1.7 mV
100 mV 2.1 mV 2.3 mV 2.7 mV 3.3 mV
200 mV 4.1 mV 4.7 mV 5.3 mV 7.2 mV
500 mV 11 mV 12 mV 14 mV 17 mV
1 V 21 mV 24 mV 27 mV 34 mV
RMS noise floor (scope with probe) DSO80804A + DSO81004A + DSO81204A + DSO81304A +
Volts/div 1168A 1168A 1169A 1169A
20 mV 2.7 mV 2.7 mV 2.9 mV 3.0 mV
50 mV 2.8 mV 2.9 mV 3.1 mV 3.4 mV
100 mV 3.3 mV 3.5 mV 3.8 mV 4.6 mV
200 mV 5.2 mV 5.6 mV 6.2 mV 7.8 mV
500 mV 12 mV 13 mV 14 mV 17 mV
1 V 22 mV 24 mV 27 mV 34 mV
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Infiniium 80000 Series Performance Characteristics (continued)
Horizontal
Main timebase range 5 ps/div to 20 s/div real-time, 5 ps/div to 500 ns/div equivalent-time
Main timebase delay range –200 s to 200 s real-time, –25 µs to 200 s equivalent-time
Delayed timebase range 1 ps/div to current main time scale setting
Channel deskew ± 25 µs range, 100 fs resolution
Time scale accuracy
3
± 1 ppm pk
Delta-time measurement accuracy
6,7
≥ 256 Averages, rms 81304A: 45 fs rms 81204A: 35 fs rms 81004A: 35 fs rms 80804A: 55 fs rms
≥ 256 Averages, peak 500 fs peak
Averaging disabled, rms 81304A: 0.9 ps rms 81204A: 0.8 ps rms 81004A: 0.8 ps rms 80804A: 0.9 ps rms
Averaging disabled, peak 5 ps peak
Jitter measurement floor
6
Time interval error 81304A: 0.7 ps rms 81204A: 0.65 ps rms 81004A: 0.65 ps rms 80804A: 0.7 ps rms
Period jitter 81304A: 0.9 ps rms 81204A: 0.8 ps rms 81004A: 0.8 ps rms 80804A: 0.9 ps rms
N-cycle, cycle-cycle jitter 81304A: 1.4 ps rms 81204A: 1.3 ps rms 81004A: 1.3 ps rms 80804A: 1.4 ps rms
Acquisition
Maximum real-time sample rate 40 GSa/s (2 channels simultaneously)
20 GSa/s (4 channels simultaneously)
Memory depth per channel
Standard 524,288 (2 channels) 262,144 (4 channels)
Option 001 2,050,000 (2 channels) 1,025,000 (4 channels)
65,600,000 at 4 GSa/s (2 channels) 32,800,000 ≤ 2 GSa/s (4 channels)
Sampling modes
Real-time Successive single-shot acquisitions
Real-time with averaging Selectable from 2 to 4096
Real-time with peak detect 2 GSa/s peak detect (4 channels), 4 GSa/s peak detect (2 channels)
Real-time with hi resolution Real-time boxcar averaging reduces random noise and increases resolution
Equivalent-time (alternating real-time) Full bandwidth on all 4 channels, 262,144 sample points maximum memory.
Acquires channels 1 and 3 simultaneously, followed by channels 2 and 4
simultaneously on subsequent triggers at 40 GSa/s each. High sample rate delivers
excellent signal fidelity and throughput.
Segmented memory Captures bursting signals at maximum sample rate without consuming memory
during periods of inactivity. Selectable number of segments up to 16,384 with
Option 001 deep memory installed. Minimum intersegment time (the time between
acquisitions) of 20 µs. See on-line help for various performance points.
Filters
Sin(x)/x Interpolation On/off selectable FIR digital filter. Digital signal processing adds points between
acquired data points to enhance measurement accuracy and waveform display quality.
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Infiniium 80000 Series Performance Characteristics (continued)
Trigger
Sensitivity
1
Internal Low
1
2.0 div p-p 0 to 5 GHz
Internal High
1
0.3 div p-p 0 to 4 GHz, 1.0 div p-p 4 to 8 GHz
Auxiliary DC to 1 GHz: 200 mV p-p into 50 Ω
Level range
Internal ± 4 div from center screen or ± 4 Volts, whichever is smallest
Auxiliary ± 5 V, also limit input signal to ± 5 V
Sweep modes Auto, triggered, single
Trigger jitter
6,8
500 fs rms
Trigger holdoff range 100 ns to 320 ms
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+.
Trigger modes
Edge Triggers on a specified slope (rising, falling or alternating between rising and falling)
and voltage level on any channel or auxiliary trigger.
Glitch Triggers on glitches narrower than the other pulses in your waveform by specifying
a width less than your narrowest pulse and a polarity. Triggers on glitches as narrow
as 500 ps. Glitch range settings: < 1.5 ns to < 160 ms.
Line Triggers on the line voltage powering the oscilloscope.
Pattern Triggers when a specified logical combination of the channels is entered, exited,
present 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). Triggers on patterns
as narrow as 500 ps.
State Pattern trigger clocked by the rising, falling or alternating between rising and falling
edge of one channel.
Delay by time The trigger is qualified by an edge. After a specified time delay between 30 ns to
160 ms, a rising or falling edge on any one selected input will generate the trigger.
Delay by events The trigger is qualified by an edge. After a specified delay between 1 to 16,000,000
rising or falling edges, another rising or falling edge on any one selected input will
generate the trigger.
Violation triggers
Pulse width Trigger on a pulse that is wider or narrower than the other pulses in your waveform
by specifying a pulse width and a polarity. Triggers on pulse widths as narrow as
500 ps. Pulse width range settings: 1.5 ns to 160 ms.
Setup/hold 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.
Transition Trigger on pulse rising or falling edges that do not cross two voltage levels
in > or < the amount of time specified.
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Infiniium 80000 Series Performance Characteristics (continued)
Measurements and math
Waveform measurements
Voltage Peak to peak, minimum, maximum, average, RMS, amplitude, base, top, overshoot,
preshoot, upper, middle, lower, area.
Time Period, frequency, positive width, negative width, duty cycle, delta time, rise time,
fall time, Tmin, Tmax, channel-to-channel phase.
Frequency domain FFT frequency, FFT magnitude, FFT delta frequency, FFT delta magnitude, FFT phase.
Statistics Displays the mean, standard deviation, minimum, maximum and number of
measurements value for the displayed automatic measurements.
Histograms Vertical (for timing and jitter measurements) or horizontal (noise and amplitude
change) modes, regions are defined using waveform markers. Measurements
included: mean, standard deviation, peak-to-peak value, median, min, max, total hits,
peak (area of most hits), and mean ± 1, 2, and 3 sigma.
Eye-diagram measurements Eye-diagram measurements include eye height, eye width, eye jitter, crossing
percentage, Q factor, and duty-cycle distortion.
Jitter analysis measurements Cycle-cycle jitter, N-cycle jitter, cycle-cycle + width, cycle-cycle – width,
(E2681A EZJIT or N5400A EZJIT Plus cycle-cycle duty cycle, data rate, unit interval, time interval error data,
Jitter Analysis software) time interval error clock, setup time, hold time, phase, period, frequency, + width,
– width, duty cycle, rise time, fall time.
Mask testing Allows pass/fail testing to user-defined or Agilent-supplied waveform templates.
AutoMask lets you create a mask template from a captured waveform and define a
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.
Waveform math Four functions, select from add, average, differentiate, divide, FFT magnitude,
FFT phase, integrate, invert, magnify, min, max, multiply, subtract, versus,
common mode, smoothing, high pass filter, low pass filter.
FFT
Frequency range
4
DC up to 20 GHz (at 40 GSa/s) or 10 GHz (at 20 GSa/s)
Frequency resolution Sample rate/memory depth = Resolution
Best resolution at maximum sample rate 20 kHz
Frequency accuracy (1/2 frequency resolution)+(1 x 10
-6
)(signal frequency)
Signal-to-noise ratio
5
60 dB to > 100 dB depending on settings
Window modes Hanning, flattop, rectangular
Measurement modes
Automatic measurements Measure menu access to all measurements, five measurements can be
displayed simultaneously.
QuickMeas+ Front-panel button activates five pre-selected or five user-defined automatic
measurements.
Drag-and-drop measurement toolbar Measurement toolbar with common measurement icons that can be dragged
and dropped onto the displayed waveforms.
Marker modes Manual markers, track waveform data, track measurements
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Infiniium 80000 Series Performance Characteristics (continued)
Display
Display
Display 8.4 inch diagonal color TFT-LCD
Resolution 640 pixels horizontally x 480 pixels vertically
Annotation Up to 12 labels, with up to 100 characters each, can be inserted into the waveform area
Grids Can display 1, 2 or 4 waveform grids
Waveform styles Connected dots, dots, persistence (minimum, variable, infinite), color-graded
infinite persistence.
Computer system and peripherals, I/O ports
Computer system and peripherals
Operating system Windows
®
XP Pro
CPU Intel
®
Pentium®III 1 GHz microprocessor
PC system memory 512 MB
Drives ≥ 20 Gb internal hard drive (optional removable hard drive), CD-R drive on rear
panel, standard 3.5 inch 1.44 MB floppy drive
Peripherals Logitech optical USB mouse and compact keyboard supplied. All Infiniium models
support any Windows-compatible input device with a serial, PS/2 or USB interface.
File types
Waveforms Compressed internal format, comma and tab separated X and Y pairs or voltage values
Images BMP, PCX, TIFF, GIF or JPEG
I/O ports
LAN RJ-45 connector, supports 10Base-T and 100Base-T. Enables Web-enabled remote
control, e-mail on trigger or demand, data/file transfers and network printing.
GPIB IEEE 488.2, fully programmable.
RS-232 (serial) COM1, printer and pointing device support.
Parallel Centronics printer port.
PS/2 2 ports. Supports PS/2 pointing and input devices.
USB 2 ports. Allows connection of USB peripherals like storage devices and
pointing devices while the oscilloscope is on.
Video output 15 pin VGA, full color output of scope waveform display.
Dual-monitor video output 15 pin XGA, full color output for using third-party applications.
Auxiliary output DC (± 2.4 V); square wave (~715 Hz and 456 MHz);
trigger output (255 mV p-p into 50 Ω).
Trigger output 5 V 50 Ω back-terminated.
Time base reference output 10 MHz filtered sine wave with all harmonics ≤ –40 dBc. Amplitude into 50 Ω:
800 mV p-p to 1.26 V p-p (4 dBm ± 2 dB) if derived from internal reference. Tracks
external reference input amplitude ± 1 dB if applied and selected.
Time base reference input Must be 10 MHz, input Z
0
= 50 Ω. Minimum 360 mV p-p (–5 dBm),
(optional) maximum 2.0 V p-p (+10 dBm).
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Infiniium 80000 Series Performance Characteristics (continued)
General characteristics
Temperature Operating: 5° C to +35° C
Non-operating: –40° C to +70° C
Humidity Operating: Up to 95% relative humidity (non-condensing) at +40°C
Non-operating: Up to 90% relative humidity at +65°C
Altitude Operating: Up to 4,600 meters (15,000 feet)
Non-operating: Up to 15,300 meters (50,000 feet)
Vibration Operating: Random vibration 5-500 Hz, 10 minutes per axis, 0.3 g(rms).
Non-operating: 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, (0.75g),
5 minute resonant dwell at 4 resonances per axis.
Power 100 - 240 VAC @ 50/60 Hz; maximum input power 550 Watts
Weight Net: 13 kg (28.5 lbs.) Shipping: 16 kg (35.2 lbs.)
Dimensions (excluding handle) Height: 216 mm (8.5 in)
Width: 437 mm (17.19 in)
Depth: 440 mm (17.34 in)
Safety Meets IEC 61010-1 +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 ± 5°C from annual calibration temperature.
1 Full scale is defined as 8 vertical divisions. Magnification is used below 5 mV/div. Below 5 mV/div, full-scale is defined as 40 mV. The major scale settings are 5 mV, 10 mV,
20 mV, 50 mV, 100 mV, 200 mV, 500 mV, 1 V.
2 Vertical resolution for 8 bits = 0.4% of full scale, for 12 bits = 0.024% of full scale.
3 Within one year of previous calibration.
4 FFT amplitude readings are affected by scope and probe bandwidth limitations and input amplifiers roll-off (e.g. –3 dB roll-off at specified bandwidth of scope/probe).
5 The FFT signal to noise ratio varies with volts/division setting, memory depth and use of time or frequency averaging.
6 Test signal amplitude ≥ 5 divisions peak-to-peak, test signal rise time ≤ 2 times scope rise time, vertical scale ≥ 20 mV/div, sample rate = 40 GSa/s; sin(x)/x interpolation
enabled, measurement threshold = fixed voltage at 50 % level.
7 Between two edges on a single channel. Rms value refers to the standard deviation of 256 consecutive measurements performed using an individual instrument.
8 Internal trigger. Trigger level contained within full scale display range of trigger channel.
9 13 GHz DSP enhanced bandwidth not applicable at 5 mV/div.
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18
InfiniiMax II Series Performance Characteristics
1169A, 1168A
Bandwidth* 1169A: > 12 GHz (13 GHz typical) 1168A: > 10 GHz
Rise and fall time Probe only, 1169A: Probe only, 1168A:
• Probe only 28 ps (20 - 80%), 40 ps (10 - 90%) 34 ps (20 - 80%), 48 ps (10 - 90%)
• When phase compensated by 1169A with DSO81204A: 1168A with DSO81004A:
80000 Series oscilloscope 25 ps (20 - 80%), 36 ps (10 - 90%) 30 ps (20 - 80%), 42 ps (10 - 90%)
1169A with DSO81304A: 1168A with DSO80804A:
23 ps (20 - 80%), 33 ps (10 - 90%) 38 ps (20 - 80%), 54 ps (10 - 90%)
System bandwidth (–3 dB) 1169A with DSO81304A: 13 GHz (typical) 1168A with DSO81004A: 10 GHz
1169A with DSO81204A: 12 GHz 1168A with DSO80804A: 8 GHz
Input capacitance
1
Cm = 0.09 pF Cm is between tips
Cg = 0.26 pF Cg is to ground for each tip
Cdiff = 0.21 pF Differential mode capacitance = Cm + Cg/2
Cse = 0.35 pF Single-ended mode capacitance = Cm + Cg
Input resistance* Differential mode resistance = 50 kΩ ±2%
Single-ended mode resistance = 25 kΩ ±2%
Input dynamic range 3.3 V peak to peak, ± 1.65 V
Input common mode range 6.75 V peak to peak dc to 100 Hz; 1.25 V peak to peak > 100 Hz
Maximum signal slew rate 25 V/ns when probing a single-ended signal
40 V/ns when probing a differential signal
DC attenuation 3.45:1
Zero offset error referred to input ± 1.5 mV
Offset range ± 16.0 V when probing single-ended
Offset gain accuracy < ± 1% of setting when probing single-ended
Noise referred to input 2.5 mV rms, probe only
Propagation delay ~6 ns (this delay can be deskewed relative to other signals)
Maximum input voltage 30 V peak, CAT I
ESD tolerance > 8 kV from 100 pF, 300 Ω HBM
* Denotes warranted specifications, all others are typical.
1 Measured using the probe amplifier and N5381A solder-in differential probe head.
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80000 Series Infiniium oscilloscopes
Model Bandwidth Channels Sample rate Standard acquisition memory
DSO81304A 12 - 13 GHz 4 40 GSa/s (2 channels) 524 kpts (2 channels)
20 GSa/s (4 channels) 262 kpts (4 channels)
DSO81204A 12 GHz 4 40 GSa/s (2 channels) 524 kpts (2 channels)
20 GSa/s (4 channels) 262 kpts (4 channels)
DSO81004A 10 GHz 4 40 GSa/s (2 channels) 524 kpts (2 channels)
20 GSa/s (4 channels) 262 kpts (4 channels)
DSO80804A 8 GHz 4 40 GSa/s (2 channels) 524 kpts (2 channels)
20 GSa/s (4 channels) 262 kpts (4 channels)
Note:
The DSO81304A uses DSP boost software to achieve 13 GHz bandwidth. It also adds a valuable DSP noise reduction feature to reduce noise at bandwidths of 10, 8, 6, 4, 2, and
1 GHz. The non-DSP boosted bandwidth of the DSO81304A is 12 GHz. The DSO81204A, DSO81004A, and DSO80804A have non-DSP boosted bandwidth specifications.
The above models include:
• Optical USB mouse
• Compact keyboard
• User's quick-start guide
• Documentation CD (service guide, programmer’s guide, programmer’s quick reference guide)
• Accessory pouch
• Power cord
• High-performance calibration cable
• E2655B probe deskew and performance verification kit
• Two 54855-67604 BNC-compatible to precision 3.5 mm (f) adapters
• One-year warranty.
Note: No probes are included with the 80000 Series oscilloscopes. The InfiniiMax II Series probes must be purchased separately.
After-Burner Upgrade program
If you find you need a little more speed after you purchase your Infiniium
80000 Series oscilloscope, the After-Burner Upgrade program is available.
This upgrade program allows you to upgrade any 80000 Series scope to a
higher bandwidth model, protecting your valuable Infiniium oscilloscope
and probing system investment over the long term.
Upgrade Description Return to service center required
N5398A DSO81204A to DSO81304A upgrade (12 GHz to 13 GHz) No
N5398B DSO81004A to DSO81204A upgrade (10 GHz to 12 GHz) Yes
N5398C DSO80804A to DSO81004A upgrade (8 GHz to 10 GHz) Yes
Note: Order as many upgrades as needed to reach the desired final bandwidth of the instrument. For example, to upgrade from a
DSO80804A to DSO81304A, order N5398C, N5398B, and N5398A.
Ordering Information
Page 20
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80000 Series Infiniium oscilloscope options and accessories
Options Description
001 2 M (2 channels), 1 M (4 channels) memory upgrade
64 M (2 channels at 4 GSa/s) or 32 M (4 channels ≤ 2 GSa/s)
002 EZJIT jitter analysis software (installed at the factory).
003 High-Speed Serial Data Analysis/Mask Testing with clock recovery and
8b/10b decoding (installed at the factory).
004 EZJIT Plus jitter analysis software (installed at the factory).
005 Noise reduction software (installed at the factory). This software is included standard
for DSO81304A.
006 My Infiniium Integration Package (installed at the factory).
017 20 Gb removable hard disk drive. Replaces internal hard disk with a removable
hard disk. Order the N5390A for additional hard disk drive cartridges.
021 Low-Speed Serial Data Analysis (installed at the factory).
093 10 MHz time base reference input. (see page 16)
Instrument options Description
1CM (E2609B) Rack-mount kit.
Service options Description
A6J ANSI Z540-compliant calibration.
Accessories Description
N5404A After-purchase memory upgrade.
Order option 001 when purchasing a new Infiniium oscilloscope. The N5404A is for
customers who own an oscilloscope and wish to upgrade the acquisition memory.
E2681A After-purchase EZJIT jitter analysis software for Infiniium oscilloscopes.
Order option 002 when purchasing a new Infiniium oscilloscope. The E2681A is for
customers who own an oscilloscope and wish to upgrade to add the EZJIT software.
N5400A After-purchase EZJIT Plus jitter analysis software for Infiniium oscilloscopes.
The N5400A is for customers who own a 54850 or DSO80000 Series oscilloscope and
wish to upgrade to add the EZJIT Plus software.
N5401A After-purchase EZJIT Plus jitter analysis software for existing installations of E2681A
EZJIT on Infiniium 54850 and DSO80000 Series Infiniium oscilloscopes. Adds RJ/DJ
separation displays and analysis capability.
E2690A After-purchase Advanced Timing Interval and Jitter Analysis software for Infiniium
oscilloscopes. Available in one scope license and four scope license versions.
N5398A DSO81204A to DSO81304A upgrade software. Also includes DSP noise reduction
feature to reduce noise at bandwidths of 10, 8, 6, 4, 2, and 1 GHz.
N5403A Noise reduction software only. DSP noise reduction feature to reduce noise at
bandwidths of 10, 8, 6, 4, 2, and 1 GHz. Included standard for DSO81304A.
N5390A Additional 20 Gb hard disk drive cartridge for Infiniium option 017.
Ordering Information (continued)
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
E2654A EZ Probe Positioner®: includes base, joystick, and articulating arm.
E2655B Additional probe deskew/performance verification kit for InfiniiMax probes.
54855-67604 18 GHz BNC-compatible to precision 3.5 mm (f) adapter.
Allows highest fidelity connection of 3.5 mm or SMA cables.
E2688A High-Speed Serial Data Analysis/Mask Testing with Clock Recovery.
Easily perform mask testing and characterize serial data streams that employ embedded
clocks. The E2688A provides mask templates and clock recovery for verifying compliance to
computer, communication and datacom standards. You can even characterize proprietary
serial buses with the built-in, general purpose golden PLL clock recovery.
Features include:
• Golden PLL clock recovery
• Set up wizard to configure the clock recovery
• Real-time eye diagram display with eye-mask unfolding
• Recovered clock display
• Time interval error (TIE) jitter measurement with statistics on the data stream
• Mask template loading
• 8b/10b decode with symbol trigger and search
Standard masks include:
• PCI Express (2.5 Gbps)
• Serial ATA (1.5 Gbps)
• Fibre Channel Electrical (1.0625, 2.125, 4.25 Gbps)
• Ethernet IEEE 802.3 (10/100/1000Base-T)
• Serial Attached SCSI, XAUI
89601A Vector Signal Analysis Software.
Agilent Infiniium oscilloscopes team up with the 89601A Vector Signal Analysis software
to provide powerful, flexible, wideband signal analysis with up to 13 GHz bandwidth for
applications including wideband communications and modulated radar.
Features include:
• Measurement bandwidth up to 13 GHz
• Flexible analog and digital demodulation supports the most advanced, complex modulation formats
• Deep memory in the Infiniium oscilloscopes allows excellent dynamic range and frequency resolution
• Flexible, powerful displays including spectrogram provide rapid insight into dynamic signal behavior
• For signal integrity and jitter measurements up to 13-GHz bandwidth the high performance Infiniium
DSO 80000 Series digital oscilloscopes offer InfiniiMax active probes, MegaZoom deep memory, and
40 GSa/s sample rates
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
N5393A PCI Express Electrical Performance Validation and Compliance Software.
The Agilent Technologies N5393A PCI Express electrical performance validation and
compliance software provides you with a fast and easy way to verify and debug your PCI
Express designs. The PCI Express electrical test software allows you to automatically execute
PCI Express electrical checklist tests, and it displays the results in a flexible report format.
The N5393A PCI Express electrical test software utilizes the clock recovery method used in the
official PCI-SIG Signal Quality Test Methodology (“SigTest”) application, ensuring that your test
results are consistent with results from the SigTest application.
The PCI Express electrical performance validation and compliance software performs a wide
range of electrical tests as per the PCI Express 1.0a electrical specifications for add-in cards
and motherboard systems as documented in section 4 of the base specification and section 4
of the card electromechanical specification.
Requires the E2688A serial data analysis software and one of the PCI-SIG approved compliance
test fixtures (CBB or CLB).
Features:
• Test setup wizard guides you through test selection, configuration, connection, execution,
and results reporting.
• Wide-range of electrical tests are performed, significantly more than SigTest.
• PCI-SIG SigTest clock recovery algorithm is used to ensure consistency with SigTest.
• Measurement connection setups are displayed when you must change the test setup.
• Oscilloscope setup is automatically configured for each test.
• Test results report formally documents your test configuration, measurements made,
pass/fail status, and waveforms.
• Pass/fail margin analysis provides an indication of how close your device is to meeting a
test specification.
N5392A Ethernet Electrical Performance Validation and Compliance Software for
Infiniium 54830, 54850, and 80000 Series Oscilloscopes.
The Agilent Technologies N5392A Ethernet electrical performance validation and compliance
software for Infiniium 54830 and 54850 Series oscilloscopes provides you with a fast and easy
way to verify and debug your 1000Base-T, 100Base-TX and 10Base-T Ethernet designs. The
Ethernet electrical test software allows you to automatically execute Ethernet physical-layer
(PHY) electrical tests, and it displays the results in a flexible report format. In addition to the
measurement data, the report provides a margin analysis that shows how closely your device
passed or failed each test.
The 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 802.3-2002 and ANSI X3.263-1995 standards.
Features:
• Test setup wizard guides you through test selection, configuration, connection, execution,
and results reporting.
• Wide-range of electrical tests are performed for 1000Base-T, 100Base-TX and 10Base-T standards.
• Measurement connection setups are displayed when you must change the test setup.
• Oscilloscope setup is automatically configured for each test.
• Test results report formally documents your test configuration, measurements made,
pass/fail status, and waveforms.
• Pass/fail margin analysis provides an indication of how close your device is to meeting a
test specification.
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
N5394A DVI Electrical Performance Validation and Compliance Software for
Infiniium 54850 and 80000 Series Oscilloscope.
The Agilent Technologies N5394A DVI electrical performance validation and compliance
software provides you with a fast and easy way to verify and debug your digital visual interface
(DVI) designs for add-in cards, cables and motherboard systems. The DVI electrical test
software allows you to automatically execute DVI electrical checklist tests, and it displays the
results in a flexible report format. In addition to the measurement data, the report provides a
margin analysis that shows how closely your device passed or failed each test.
The N5394A DVI electrical performance validation and compliance software offers the four
fundamental DVI electrical tests. The software automatically configures the oscilloscope for
each test, and it provides an informative results report that includes margin analysis indicating
how close your product is to passing or failing that specification.
Features:
• Test setup wizard guides you through test selection, configuration, connection, execution,
and results reporting.
• Wide-range of electrical tests are performed.
• Uses the Silicon Graphics DVI Compliance test fixtures for measurements and hardware
clock recovery.
• Measurement connection setups are displayed when you must change the test setup.
• Oscilloscope setup is automatically configured for each test.
• Test results report formally documents your test configuration, measurements made,
pass/fail status, and waveforms.
• Pass/fail margin analysis provides an indication of how close your device is to meeting a
test specification.
Download Serial ATA Signal Quality Compliance Test.
If you develop Serial ATA host bus adapters or devices and would like to perform
compliance testing to the standard, the sigtest program provides the following features:
• program runs inside Infiniium and tests host bus adapters and devices for
compliance to Serial ATA standard, as issued by Serial ATA working group
• written test procedure for Agilent Infiniium 81004A and Agilent 81134A pulse/pattern generator
• software automatically sets up the oscilloscope, allows user to transfer setups to pattern
generator, acquires waveform data and launches eye measurement (sigtest)
• includes support for OOB (out of band) signal testing
• solution has been evaluated and proven at Serial ATA plugfests
Program can be downloaded for free from the following URL:
http://www.cos.agilent.com/scope-apps/sata.html
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
Partner Product IEEE-1394 Pre-Compliance Test Option.
A pre-compliance test solution is available from Quantum Parametrics for use
in conjunction with Agilent 80000 Series oscilloscopes. This test solution
automates the compliance test process for the IEEE-1394 standard.
See http://www.quantumparametrics.com for additional information.
E2683A USB 2.0 Compliance Test Option.
The Agilent USB 2.0 compliance test option makes USB signal integrity testing as simple as
capturing the signals with your oscilloscope. Infiniium has significantly reduced the work
associated with USB compliance testing by eliminating the need to transfer scope waveforms
to a PC. The Infiniium USB 2.0 test option features run-time MATLAB embedded in the scope for
use with the USB signal integrity scripts, providing a one-box solution. The USB-IF compliance
program recognizes Infiniium as a recommended scope for use in pre-compliance testing. In addition,
all MATLAB scripts used with the USB 2.0 test option come from the USB-IF organization.
This option works with all Infiniium 80000 Series oscilloscopes. Included with the E2683A
are USB-IF MATLAB scripts and Signal Quality Inrush Droop/Drop (SqiDD) test fixture, needed
for low/full speed testing. Additional SqiDD test fixtures can be purchased as the E2646A.
For USB 2.0 High Speed testing, order the E2683A test option as well as the E2649A for a
complete set of six fixtures and power supply.
For USB 2.0 High Speed testing, a differential probe is required. Please order an InfiniiMax probe
amplifier, along with the E2678A differential socketed probe head.
The USB 2.0 Compliance Test Procedure is located at http://www.usb.org/developers/docs
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
E2697A High Impedance Adapter (Includes 500 MHz Passive Probe)
The E2697A high impedance adapter allows connection
of probes that require a high impedance input (e.g., passive
probes, current probes) to the Infiniium 80000 Series
of high-performance oscilloscopes. The E2697A high
impedance adapter extends the capability of Agilent
Infiniium high-performance oscilloscopes, making them
ideal for a variety of general-purpose measurements such
as power supplies, inverters, semiconductor measurements,
etc. The E2697A provides switchable ac/dc coupling, as
well as 10:1 and 1:1 attenuation settings.
Specifications/Characteristics
Bandwidth Analog BW (–3 dB) 500 MHz (with supplied 10073C passive probe)
System Bandwidth 500 MHz (with 10073C passive probe and
80000 Series oscilloscope)
DC attenuation 1.16:1 E2697A internal attenuator at 1:1 (at scale settings > 200 mV/div
signal size limited by input dynamic range)
11.6:1 E2697A internal attenuator at 10:1 (at scale settings > 200 mV/div
signal size limited by input dynamic range)
Input Dynamic Range E2697A internal attenuator setting of 1:1 ± 0.8 V
E2697A internal attenuator setting of 10:1 ± 8 V
Input Dynamic Range with E2697A internal attenuator setting of 1:1 ± 8 V
10073C passive probe E2697A internal attenuator setting of 10:1 ± 80 V
Input Impedance* 1 MΩ ± 1% (~12 pF)
Input Coupling dc, ac (7 Hz)
Maximum Input Voltage ± 100V [dc + ac] [ac < 10 kHz], CAT I
Offset Range E2697A internal attenuator setting of 1:1 ± 5 V
E2697A internal attenuator setting of 10:1 ± 50 V
Dc Gain Accuracy
1
± 1.5% of full scale
Offset Accuracy
1
± (1.5% of channel offset + 1.5% of full scale)
* Denotes warranted specifications, all others typical. Specifications are valid after a 30 minute warm-up period and ± 5 °C from
calibration temperature.
1 Full scale is defined as 8 vertical divisions.
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
E2625A Communication Mask Test Kit.
Take the frustration out of communications testing and prove your designs conform to industry
standards with the E2625A Communications 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 E2625A Communication Mask Test Kit comes with a set of electrical communication
adapters to ensure convenient, reliable and accurate connections to your device under test. Included
are more than 20 industry standard ANSI T1.102 and ITU-T G.703 communication signal mask templates.
E5850A Logic Analyzer/Oscilloscope Time-Correlation Fixture.
Now you can more effectively verify and track down problems between the analog and digital
portions of a design. Easily make time-correlated measurements between an Agilent 16900 Series
logic analysis system and an Infiniium Series oscilloscope. With the E5850A Time-Correlation
Fixture, you can trigger the Infiniium from the logic analyzer (or vice versa), and automatically deskew
the waveforms. The Infiniium time markers and the 16900 series time markers are time-Correlated and
track each others. You can relate information on the oscilloscope and the logic analyzer precisely.
Foot Switch Kinesis Savant 3-Action Programmable Foot Switch P/N FS004PS2.
Allows you to easily program the 3-action foot pedals to perform the following
scope functions: run, stop, toggle between run and stop, save waveform, save
screenshot, measure any five waveform parameters and recall an instrument setup.
See http://www.kinesis-ergo.com/ for additional information and ordering instructions.
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Ordering Information (continued)
80000 Series Infiniium oscilloscope options and accessories (continued)
Accessories (continued) Description
1184A Testmobile.
Agilent’s 1184A testmobile
provides a convenient solution
for your portability and storage
needs. The 1184A includes a
drawer for accessories and a
keyboard tray with a mouse
extension for either right- or
left-handed operation.
E2682A VoiceControl Option.
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 operate your Infiniium’s front-panel 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 volt per division.” The VoiceControl system does not
require the scope to be trained to understand a particular user.
E2699A My Infiniium Integration Package
My Infiniium allows you to extend the power of your Windows XP-based Infiniium oscilloscope
by letting you launch customized applications, such as those written for Agilent VEE Pro,
NI LabVIEW, MATLAB
®
or Microsoft Excel, directly from the oscilloscope’s front panel or
graphical user interface.
For more detailed information, please request Agilent publication number 5988-9934EN.
N5391A Low-Speed Serial Data Analysis Software.
Provides a fast and easy way to debug Inter-Integrated Circuit (I
2
C) and 2-wire or 3-wire
Serial Peripheral Interface (SPI) serial communication busses. The Low-Speed SDA software,
when used with the Agilent 54830 Series, 54850 Series, or 80000 Series Infiniium oscilloscopes,
provides the ability to capture and automatically display decoded serial data in numerical format
synchronized with the analog or digital waveform view of I
2
C or SPI serial data streams.
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Ordering Information (continued)
InfiniiMax II Series probing system
InfiniiMax II probe amplifiers Description
1169A 12 GHz InfiniiMax probe amp – order one or more probe heads.
1168A 10 GHz InfiniiMax probe amp – order one or more probe heads.
InfiniiMax II probe heads Recommended for use with InfiniiMax II probe amplifiers
N5380A InfiniiMax II 12 GHz differential SMA adapter. Includes semi-rigid coax to change
span between SMA connectors.
N5381A InfiniiMax II 12 GHz differential solder-in probe head and accessories. Includes
wire for replacement leads. Order 01169-21306 for 0.005 inch or 01169-81301 for
0.007 inch replacement nickel wire.
N5382A InfiniiMax II 12 GHz differential browser. Includes wire for replacement leads.
Order 01169-21304 for 0.005 inch replacement steel wire.
InfiniiMax I probe heads* Can be used with InfiniiMax II probe amplifiers with limitations
E2675A InfiniiMax differential browser probe head and accessories. Includes 20 replaceable
tips and ergonomic handle. Order E2658A for replacement accessories.
E2676A InfiniiMax single-ended browser probe head and accessories. Includes 2 ground collar
assemblies, 10 replaceable tips, a ground lead socket and ergonomic browser handle.
Order E2663A for replacement accessories.
E2677A InfiniiMax differential solder-in probe head and accessories. Includes 20 full bandwidth
and 10 medium bandwidth damping resistors. Order E2670A for replacement accessories.
E2678A InfiniiMax single-ended/differential socketed probe head and accessories. Includes 48 full
bandwidth damping resistors, 6 damped wire accessories, 4 square pin sockets and
socket heatshrink. Order E2671A for replacement accessories. Order E5381-82103 for
34 damped wire accessories only.
E2679A InfiniiMax single-ended solder-in probe head and accessories. Includes 16 full bandwidth
and 8 medium bandwidth damping resistors and 24 zero ohm ground resistors. Order E2672A
for replacement accessories.
E2695A Differential SMA probe head. Includes semi-rigid coax to change span between
SMA connectors.
* (See page 3 for specifications and limitations when used with InfiniiMax II Series probe amplifiers.)
Adapters Description
N1022A Adapts 113x/115x/116x active probes to 86100 Infiniium DCA.
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Ordering Information (continued)
InfiniiMax II Series probing system (continued)
Other compatible probes Description
1144A 800 MHz active probe. Requires 1142A probe power supply when used with Infiniium scopes.
Requires 01144-61604 probe power extender when using two or more 1144A active probes.
1145A 2-channel, 750 MHz active probe. Requires 1142A power supply when used with
Infiniium oscilloscopes.
1156A 1.5 GHz single-ended active probe for Infiniium scopes.
1157A 2.5 GHz single-ended active probe for Infiniium scopes.
1158A 4 GHz single-ended active probe for Infiniium scopes.
54006A 7.5 GHz passive resistive divider probe – 10:1 (500 ohms) or 20:1 (1 kohms).
Page 30
30
Ordering Information (continued)
Related Literature
Publication Title Publication Type Publication Number
Infiniium 54850 Series Oscilloscopes Data Sheet 5988-7976ENUS
Infiniium 54830 Series Oscilloscopes Data Sheet 5988-3788ENUS
E2681A EZJIT Jitter Analysis Software Data Sheet 5989-0109EN
N5400 EZJIT Plus Jitter Analysis Software Data Sheet 5989-1487EN/ENUS
E2690A Timing Interval & JItter Data Sheet 5988-9723EN
Analysis Software
E2688A High-Speed Serial Data Data Sheet 5989-0108EN
Analysis Software
Using Agilent InfiniiMax Probes with Configuration Guide 5989-1869EN
Test Equipment other than Agilent
Infiniium Oscilloscopes
PCI-Express Test Package Data Sheet 5989-1240EN
Ethernet Compliance Test Package Data Sheet 5989-1527EN
E2683A USB 2.0 Compliance Test Software Data Sheet 5989-0236EN
Infiniium 54800 Series Oscilloscope Selection Guide 5968-7141EUS
Probes, Accessories and Options
Advantages and Disadvantages of Using Application Note 5989-1145EN
DSP Filtering on Oscilloscope Waveforms 1494
Understanding and Using Offset in Application Note 5988-9264EN
InfiniiMax Active Probes 1451
Finding Sources of Jitter Application Note 5988-9740EN
with Real-Time Jitter Analysis 1448-2
MATLAB®is a U.S. registered trademark of Math Works, Inc.
Windows
®
is a U.S. registered trademark of Microsoft Corporation.
Intel
®
and Pentium®is a U.S. registered trademark of Intel Corporation.
EZ-Probe Positioner
®
is a registered trademark of Cascade Microtech.
The Agilent Serial BERT generator N4901B (N4902B)
option 200 provides high speed digital stimulus to your
device with PRBS or memory based pattern from
150 Mb/s up to 13.5 Gb/s (7 Gb/s). For mor information,
see www.agilent.com/find/pulse-generators.
Product Web site
For the most up-to-date and
complete application and product
information, please visit our
product Web site at:
www.agilent.com/find/infiniimaxII
Page 31
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© Agilent Technologies, Inc. 2005
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