Service Guide
Publication Number 54856-97001
May 2005
Copyright Agilent Technologies 2004-2005
All Rights Reserved.
Agilent Model 80000 Series Infiniium
Oscilloscopes
The Agilent Technologies Infiniium Oscilloscope at a Glance
Ease of use with h igh performance
The Agilent Techno logie s Infini ium oscillo scopes
combine unprecedented ease-of-use with highperformance digitizing oscilloscope functional ity
to simplify your design and an alysis measuremen t
tasks.
• Traditional oscillos cope front- panel interf ace
provides d irect acces s to the controls needed
for most troubleshooting tasks
• Graphical user i nterface with menus,
windows, dialo gs, and toolbars provides easy
access to dozens of configuration and
analysis tools, ensuring you can set up and
make the most complex measurements
• Agilent DSO8130 4A offers 4 channels,
20 GSa/s sampli ng rate on all four channels,
13 GHz bandwidth
• Agilent DSO8120 4A offers 4 channels,
20 GSa/s sampli ng rate on all four channels,
12 GHz bandwidth
• Agilent DSO8100 4A offers 4 channels,
20 GSa/s sampli ng rate on all four channels,
10 GHz bandwidth
• Agilent DSO8080 4A offers 4 channels,
20 GSa/s sampli ng rate on all four channels,
8 GHz bandwidth
Acquisition and general controls start and stop
the scope and do basic setup
• Run and stop controls for continuou s or
single-shot acquisitions
• Clear display before one or more acquisitions
• Default set up and Autoscale set initial
configuration
Hard disk drive and floppy disk drive for saving
and restoring setups and measurement results
• Store measurement displays for inclusion in
reports and test setup guides
• Store oscill oscope setups to rep eat tests
another time
• Hard disk stores oscilloscope operating
system
Trigger setup controls set mode and basic
parameters
• Select Edge, Glitch, or Advanced Modes
• Choose input source and slope
• Use graphical user interface to simplify
configuration of pattern, state, delay, and
violation
• Use auxiliary trigger to increase triggering
flexibility
Display shows wav eforms and graphical user
interface
• Graphical interface allows direct interaction
with waveforms, including drag-and-drop
positioning and instant waveform zoom
• Waveforms displayed in color, making
correlation easy
• Current configuration parameters displayed
near the waveform display and are colorcoded to make identification easy
• Graphical interface menus and toolbars
simplify complex measurement setups
Horizontal cont rols set swee p speed and positi on
• Main sweep speeds from 5 ps/div to 20 s/div
• Delayed sweep speeds from 1 ps/div to main
time base setting
• Intensifi ed waveforms on main sweep
window make it easy to see what will appear
in delayed sweep window
Vertical controls set attenuation, and position
• Input attenuation adjustabl e from 1 mV/div to
1 V/div
• Color-coded knobs make it easy to find the
controls that affect each waveform
Marker and quick measurements help measure
waveform parameters
• Waveform markers A and B to check voltage
or ∆−time at any point on the displayed
waveform
• Quick Meas execut es up to four predefined
measurements instantly
Service Policy
The service policy of this instrument requires
replacing defective assemblie s. Some
assemblies can be replaced on an exchange
basis.
ii
Front panel
Display and
Graphical
Interface
Horizontal
controls
Acquisiti on and
general co ntrols
Floppy Disk Drive
Power
Rear
foot
Marker and Quick
Measurements
Rear panel without option 017
Parallel
Printer Port
LAN
and
USB
Ports
CD-RW
drive
Vertical
Controls
VGA
Interface
AutoProbe
Interface
GPIB Interface
Vertical
Inputs
Trigger
Setup
Auxiliary
Output
AC Pow e r
Input
Mouse and
Keyboard
Interface
RS232
COM
Port
Secondary
monitor
Sound In
Sound Out
Microphone
10
MHz
Ref In
(opt.)
Aux Trig
In
TTL
Trig
Out
10 MHz
Ref Out
iii
Rear panel with option 017
Removabl e h ar d drive
iv
In This Book
This book provides the service documentation for the Agilent Technologies DSO81304A,
DSO81204A, DSO81004A, and DSO80804A oscilloscopes. It is divided into eight chapters.
Chapter 1 provides general information and specifications.
Chapter 2 shows you how to prepare the oscilloscope for use.
Chapter 3 gives performance tests.
Chapter 4 covers calibration procedures, how to do them, and how often they need to be done.
Chapter 5 gives information on troublshooting to a faulty system.
Chapter 6 gives the procedures and techniques for replacing assemblies and other parts.
Chapter 7 includes a list of exchange assemblies and other replaceable parts, part ordering
information, and shipping information.
Chapter 8 briefly covers the internal operation of the oscilloscope.
At the back of the book you will find safety notice information.
v
vi
Contents
1 General Information
Oscilloscopes covered by this service guide 1-2
Accessories supplied 1-3
Accessories available 1-3
Specifications 1-5
Characteristics 1-6
Dimensions 1-12
Recommended test equipment 1-13
2 Setting Up the Oscilloscope
To inspect package contents 2-3
To inspect options and accessories 2-5
To connect power 2-7
To connect the mouse, the keyboard, a LAN cable, a printer, and a GPIB cable 2-10
To connect SMA Cables 2-12
To tilt the oscilloscope upward for easier viewing 2-13
To turn on the oscilloscope 2-14
To turn off the oscilloscope 2-15
To verify basic oscilloscope operation 2-16
Installing application programs on Infiniium 2-17
Changing Windows System Settings 2-18
To clean the oscilloscope 2-19
3Testing Performance
Before Performing Performance Verification Testing 3-3
Offset Accuracy Test 3-5
DC Gain Accuracy Test 3-12
Analog Bandwidth - Maximum Frequency Check 3-16
Performance Test Record 3-23
4 Calibration
To run the self calibration 4-3
5Troubleshooting
To install the fan safety shield 5-3
To troubleshoot the oscilloscope 5-4
Primary Trouble Isolation 5-5
Power Supply Trouble Isolation 5-12
Power Board Trouble Isolation 5-15
Display Trouble Isolation 5-19
Front Panel Display Trouble Isolation 5-21
Front Panel Trouble Isolation 5-23
Motherboard Verification 5-24
To configure the motherboard jumpers and setup BIOS 5-29
Contents–1
Contents
POST Code Listing 5-32
Acquisition Trouble Isolation 5-34
AutoProbe Board Trouble Isolation 5-35
To check the keyboard; Trouble Isolation Procedure 5-36
To check the LEDs 5-37
Software Revisions 5-38
To check probe power outputs 5-39
To check the display board video signals 5-40
To check the backlight inverter voltages 5-41
6 Replacing Assemblies
To return the oscilloscope to Agilent Technologies for service 6-3
To remove and replace the covers 6-4
To disconnect and connect Mylar flex cables 6-6
To remove and replace the AutoProbe assembly 6-7
To remove and replace the probe power and control board 6-9
To remove and replace the front panel assembly 6-11
To remove and replace the keyboard, backlight inverter board, and flat-panel display
assemblies 6-14
To remove and replace the acquisition board assembly 6-18
To remove and replace the power regulator distribution board 6-21
To remove and replace the interface and GPIB board 6-23
To remove and replace the oscilloscope graphics board and display board 6-24
To remove and replace the floppy disk drive 6-25
To remove and replace the internal hard disk drive 6-26
To remove and replace the CD-ROM drive 6-28
To remove and replace the motherboard 6-30
To remove and replace the power supply 6-32
To remove and replace the fans 6-34
7 Replaceable Parts
Ordering Replaceable Parts 7-2
Power Cables and Plug Configurations 7-3
Exploded Views 7-5
Replaceable Parts List 7-10
8 Theory of Operation
Block-Level Theory 8-3
Acquisition Theory 8-7
Contents–2
1
Oscilloscopes covered by this service guide 1-2
Accessories supplied 1-3
Accessories available 1-3
Specifications 1-5
Dimensions 1-11
Recommended test equipment 1-12
General Information
General Information
This chapter of the Agilent Technologies Infiniium Oscilloscope Service Guide gives
you general information about the oscilloscope. The following topics are covered in this
chapter.
• oscilloscope identification
• Options
• Accessories
• Specifications and characteristics
• Test equipment requirements
Oscilloscopes covered by this service guide
The oscilloscope can be identified by the product number on the back panel.
On the rear panel of the oscilloscope is a serial number label and a VIN # XXX. The serial number
is composed of two parts. The first part contains two letters and two numbers that signify the
oscilloscope’s county of origin and year date code. The second part, or the last six digits from
the right, contains a rolling number that is different for each Infiniium. This manual may not
reflect changes made to the oscilloscope after the release date listed on the title page.
An oscilloscope manufactured after the printing of this manual may have a newer serial number.
This newer serial prefix indicates that the oscilloscope may be different from those described in
this manual. The manual for this oscilloscope will be revised as needed. If you have an oscilloscope
with a newer serial number, please refer to the Agilent Technologies website and download a
newer manual edition in Adobe Acrobat (pdf) format. The Agilent Technologies URL is:
“www.agilent.com”. It will be necessary to search for the product page, then click on “Manuals
& Guides” link in the Library section of the product page.
1–2
Chapter 1: General Information
Accessories supplied
The following accessories are supplied.
• Mouse, Agilent part number 1150-7913
• Keyboard, Agilent part number 1150-7809
• Accessory Pouch, Agilent part number 54810-68701
• Front-panel cover, Agilent part number 54810-42201
• Calibration cable assembly, Agilent part number 54855-61620
• Probe De-skew and Performance Verification Kit, Agilent E2655A
• Precision 3.5 mm adapters (qty 2), Agilent part number 54855-67604
• BNC shorting cap, Agilent part number 1250-0929
• Power cord (see chapter 6, “Replaceable Parts,” for available power cords)
• User's Quick Start Guide
Accessories available
Accessories supplied
The following accessories are available for use with the oscilloscope.
Table 1-1 Accessories for the Infiniium Oscilloscopes
Agilent Mode l N u mber Descrip tion
54855-67604 18 GHz BNC-compatible to APC 3.5 mm adaptor
10833A GPIB cable, 1 m
10833B GPIB cable, 2 m
10833C GPIB cable, 4 m
10833D GPIB cable, 0.5 m
11094B 75
1131A 3.5 GHz InfiniiMax Active Probe
1130A 1.5 GHz InfiniiMax Active Probe
1168A 10 GHz InfiniiMax Active Probe
1169A 12 GHz InfiniiMax Active Probe
1131A 3.5 GHz InfiniiMax Active Probe
1132A 5 GHz InfiniiMax Active Probe
1134A 7 GHz InfiniiMax Active Probe
1144A 800 MHz Active Probe
1145A 750 MHz Active Probe
1156A 1.5 GHz Active Probe
1157A 2.5 GHz Active Probe
1158A 4 GHz Active Probe
1181B Testmobile with tilt tray
1184A Testmobile w ith keyboard and mouse tray and draw er for accessories
34398A RS-232-C Printer Cable
34399A RS-232-C Adapter kit
54006A 6 GHz probe, 10:1 (500
C2950A Parallel printer cable, 2 m
Ω Feedthrough Termination
Ω) or 20:1 (1 k Ω), . 25 pf
1–3
Chapter 1: General Information
Accessories available
Agilent Mode l N u mber Descrip tion
C2951A Parallel printer cable, 3 m
E2609B Rackmount kit
E2621A 75
E2622A 100/110/120
E2654A EZ-Probe
E2655A Additional probe deskew and performance verification kit
E2669A Differential connectivity kit
E2668A Single-ended connectivity kit
E2675A Differential browser and accessories
E2676A Single-ended browser and accessor ies
E2677A Differential solder-in probe head
E2678A Single-ended/differentia l socketed probe
E2679A Single-ended solder-in probe head
E2680A 1 MB Memory upgrade
E2681A Jitter Analysis Software for the 80000 Series Infiniium oscilloscopes
E2683A USB Test Option
E2688A Serial Bus Mask Test Option
E5850A Time-correlation fixture, integrates Infiniium oscilloscope and 16700
N1022A Adapter 113 X & 115X probes to 86100 infiniium DCA
Ω terminator
®
Positioner
logic analyzer
Ω different ial terminator
1–4
Chapter 1: General Information
Specifications
Specifications
The following table lists the specifications for the Agilent Technologies 80000 Series Infiniium
Oscilloscopes. All specifications are warranted. Specifications are valid after a 30 minute
warm-up period, and within
Vertical
± 5 °C from the annual calibration temperature.
Analog bandwidth (-3 dB) DSO81304 A: 12 GHz
DSO81004A: 10 GHz
DC gain accuracy
Maximum input voltage ±5 V, CAT I
!
Offset accur acy
DC voltage measurement accuracy
Dual cursor
Single cursor
1
1
1
±2% of full scale at full resolution channel scale
≤3.5 V: ± (2% of channel offset +1% of full scale) + 1 mV
>3.5 V: ± (2% of channel offset +1% of full scale)
± [(DC gain accuracy)+(resolution)]
± [(DC gain accuracy)+(offset accuracy)+(resolution/2)]
1. Full scale is defined as 8 vertical divisions. Magnification is used below 5 mV/div. Below 5 mV
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 and 1 V.
DSO81204 A: 12 GHz
DSO80804 A: 8 GHz
1–5
Chapter 1: General Information
Characteristics
Characteristics
All characteristics are the typical performance values of the Infiniium oscilloscope and are not warranted.
Footnotes are located on page 10.
Vertical
Input channels 4
DSP enhanced bandwidth (-3 dB) DSO81304A: 13 GHz
Rise time (10% to 90%)
(20% to 80%)
DSO81304A
DSO81304A
9
: 33 ps DSO81204A: 36 ps DSO81004A: 42 ps DSO80804A: 54 ps
9
: 23 ps DSO81204A: 25 ps DSO81004A: 30 ps DSO80804A: 38 ps
Input impedance 50
Sensitivity
1
Ω ±3%
1 mV/div to 1 V/div
Input coupling DC
Vertical resolution
Channel to channel isolation
(any two chan nels with equal V/div
settings)
2
8 bits, ≥12 bits with averaging
DC to 3 GHz: 60 dB
3 GHz to 8 GHz: 40 dB
8 GHz to BW: 35 dB
Offset range Vertical sensitivity Available offset
0 mV to ≤ 40 mV/div ± 0.4 V
> 40 mV to ≤ 75 mV/d iv ± 0.9 V
> 75 mV to ≤ 130 mV/div ± 1.6 V
> 130 mV to ≤ 240 mV/div ± 3.0 V
> 240 mV ± 4.0 V
Dynamic range ± 4 div from center screen
RMS noise floor Vo lts/div DSO80804A DSO81004A DSO81204A DSO81304A
5 mV 280 µV 340 µV 390 µV420 µV
10 mV 310 µV 380 µV 440 µV490 µV
20 mV 470 µV 530 µV 610 µV730 µV
50 mV 1.1 mV 1.2 m V 1.4 mV 1.7 mV
100 mV 2.1 mV 2. 3 m V 2.7 mV 3.3 mV
200 mV 4.1 mV 4.7 mV 5.3 mV 6.6 mV
500 mV 11 mV 12 mV 14 mV 17 mV
1 V 21 mV 24 mV 27 mV 34 mV
Horizontal
Main sweep ti m e scale range 5 ps/div to 20 s/div real time, 5 ps/div to 500 ns/div equivalent time
Main sweep ti me delay range -200 s to 200 s real time, -25 µs to 200 s equi valent time
Delayed sweep time scale range 1 ps/div to current ma in time scale s etting
Channel deskew range ±25 µs, 100 fs resolution
Time scale accuracy
Delta-time measurement accuracy
≥ 256 Averages, rms
≥ 256 Averages, peak
Averaging disabled, rms
Averaging disabled, peak
Jitter measurement floor
Time interval error:
Period jitter:
N-cycle, cycle-cycle jitter:
3
±1 ppm pk
6,7
DSO81304A: 45 fs DSO81204A: 35 fs DSO81004A: 35 fs DSO80804A: 55 fs
500 fs peak
DSO81304A: 0.9 ps DSO81204A: 0.8 ps DSO81004A: 0.8 ps DSO80804A: 0.9 ps
5 ps peak
6
DSO81304A: 0.7 DSO81204A: 0.65 DSO81004A: 0.65 DSO80804A: 0.7 (ps rms)
DSO81304A: 0.9 DSO81204A: 0.8 DSO81004A: 0.8 DSO80804A: 0.9 (ps rms)
DSO81304A: 1.4 DSO81204A: 1.3 DSO81004A: 1.3 DSO80804A: 1.4 (ps rms)
1–6
Acquisition
Real time sample rate per channel 40 GSa/s (2 channels simultaneously)
20 GSa/s (4 channels simul taneously)
Memory depth per channel
Standard
524,288 (2 channels) 262,144 (4 channels)
Chapter 1: General Information
Characteristics
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
Real time with averaging
Real time with peak detect
Real time with hi resolution
Successive single-shot acquisitions
Selectable from 2 to 4096
2 GSa/s peak detect (4 channe ls), 4 GSa/s peak detect ( 2 channe ls)
Real time boxcar averaging reduces random noise and increases resolution.
Full bandwidth on all 4 ch annels, 262, 144 sample points maximum m em ory. Acquire s
Equivalent time
channels 1 and 3 simultaneously, fol lowed by channels 2 and 4 simultaneously on
subseque nt triggers at 40 GSa/s each. High sample rate del ivers excel lent signal
fidelity and throughput.
Filters
Sin(x)/x Interpolat ion On/off selectable FIR digital filter. Digital signal proce ssing adds points between
acquired dat a poi nts to enh anc e measu reme nt ac curacy and wavef or m displa y qua lity .
Trigger
Sensitivity
1
Interna l Lo w
Interna l Hi gh
Auxiliary
1
1
2.0 div p-p 0 to 5 GHz
0.3 div p-p 0 to 4 GHz, 1.0 div p-p 4 to 7.5 GHz
DC to 1 GHz: 200 mV p-p into 50 Ω
Level range
Internal
Auxiliary
± 4 div from center screen or ± 4 Volts, whichever is smallest
± 5 V, also limit input signal to ± 5 V
Sweep modes Auto, triggered, single
Trigge r jit te r
6,8
500 fs rms
Trigger holdoff range 100 ns to 32 0 m s
Trigger acti ons Specify an act ion to occur and the frequency of the action when a trigger condition
occurs. Actions include e-mail on trigger and QuickMeas+.
Trig ge r m o des
Edge
Triggers on a specified slo pe(rising , falling, or alternati ng between risi ng and fallin g) and
voltage level on any chan nel 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 a s narrow as 500 ps. Glitch ra nge settings : < 1.5 ns to < 160 ms.
Triggers on the line voltage powering the oscilloscope.
Line
Pattern
Triggers wh en a specif ied logical comb ination of the channel s is entered, ex ited, prese nt
for a speci fied per io d of t ime o r is wi thi n a s pecif ie d time ran ge. Each ch anne l c an h ave
a value of High (H), Low (L) or Don't care (X). Triggers o n patterns as nar row as 500 ps.
Pattern trigger clocked by the rising or falling edge of one channel .
Logic type: AND or NAND.
State
The trigg er is qual ifi ed b y a n e dge. Af t er a s pec ifi ed t im e dela y b et ween 30 ns to 16 0 ms ,
a rising or falling edge on any one select ed input will generate the trigger.
Delay by time
The trigg er is q ual ifi ed by an edg e. After a sp ecifi ed dela y b etwe en 1 to 16, 000, 00 0 r isi ng
or falli ng edges, another rising or falling edge on any one selected input will generate
the trigger.
Delay by events
1–7
Chapter 1: General Information
Characteristics
Violation triggers
Pulse width
Transition
Measurements and math
Waveform measurements
Voltage
Time
Frequency Dom ain
Trigger on a pulse that is wider or nar rower than the other pulses in your wav e form 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.
Trigger on pulse r ising or falling edges tha t do not cr oss two voltage lev els in > o r < the
amount of time specified.
Peak to peak, minimum, maximum, average, RM S, amplitude , base, top, overshoot,
preshoot, upper, middle, lower, area.
Period, frequency, positive widt h, negative width, duty cyc le, delta time, rise time , fall
time, Tmin, Tmax, channel-to-channel phase.
FFT frequency, FFT magnitude, FFT delt a frequency, FFT delta magnit ude, FFT phase.
Statisti cs Displays the mean, standard deviation, minimum, m aximum and number of
measurements value for the displayed automatic measurements.
Histograms Vertical ( for tim ing a nd jit te r me asureme nt s) or ho ri zo ntal (noi se and amp lit ude change )
modes, regions are defined using waveform markers. Measurements included: mean,
standard de vi ation , p eak -to- peak value , med ia n, min , max , tot al hits , peak (ar ea of mo st
hits), and mean ± 1, 2, and 3 sigma.
Eye-diagram measurements Eye-diagram measurements include eye height, eye width, eye jitter, crossing
percent age, Q factor, and duty-cycl e distortion.
Jitter measurements
(E2681A EZJIT software package)
Cycle-cycle jitter, N-cycle jitter, cycle-cycle + width, cycle-cycle - width, cycle-cycle
duty cycle, data rate , unit inter val, time i nterval e rror data, time interv al error clo ck, setup
time, hol d t ime, p has e, per io d, fr equ ency, + wi dth, - wi dth, dut y cycl e, rise tim e, f al l ti me.
Mask testi ng Allows pa ss/fail testing to user-defined or Agilent-supplied waveform templates.
AutoMask l ets you create a mask template from a captured waveform and defi ne a
tolerance range in tim e/voltage or percent age. Test modes include te st forever, test to
specified time or event limit, and stop on failur e. 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 func tions, select fro m add, a verage , dif ferenti ate, d ivide, FFT magnitude , FF T pha se,
integrate, invert, magnify, min, max, multiply, subtract, versus, common mode,
smoothing, high pass filter, low pass filter.
FFT
Frequen cy range
Frequen cy resolution
Best resolution at maximum sample
rate
Frequency accuracy
Signal-to-noise ratio
4
DC to 20 GHz (at 40 GSa/s) or 10 GHz (at 20 GSa/ s).
Sample rate/memory depth = Resolution.
20 kHz.
(1/2 frequency resol u tion)+(1 x 10
5
60 dB to 100 dB depending on sett ings.
Hanning, fl attop, rectangular.
-6
)(signal frequency).
Window modes
Measurement modes
Automatic measurements
Measure menu access to all measurements, five measurem ents can be displ ayed
simultaneously.
QuickMeas
Front-panel button activates five pre-selec ted or five user-defined automatic
measurements.
Drag-and-drop measurement
toolbar
Measurement toolbar with common measurement icons tha t can be dragged and
dropped on to the displa yed w aveforms.
Marker modes Manual markers, track waveform data, track measurements.
Display
1–8
Display
Display
Resolution
Annotation
Grids
Waveform style
Computer sy stem and peripherals, I/O por ts
8.4 inch diagonal color TFT-LCD.
640 pix els horizontally x 480 pi xe ls verti c al l y .
Up to 12 label s, wit h up to 100 charact er s each, can be i nsert ed i nto th e wavef or m are a.
Can display 1, 2 or 4 wavefor m grids.
Connecte d dots, dots, persistence (minimum, va riable, infinite), color-graded infinit e
persistence.
Chapter 1: General Information
Characteristics
Computer sy stem and peripherals
Oper at i n g sy stem
CPU
PC system memory
Drives
Peripherals
File types
Waveforms
Images
I/O por ts
LAN
GPIB
RS-2 3 2 (serial)
Parallel
PS/2
USB
Video output
Dual-monitor video output
Auxiliary output
Trigger output
Time base r e ference output
Time base reference input
Windows
Intel
512 MB.
®
XP Pro .
®
Pentium® III 1 GHz microprocessor.
≥20 GB int ern al ha rd dr ive, CD- RW dr ive on r ea r pane l, s ta ndar d 3. 5 i nc h 1.4 4 MB flop py
drive.
Logitech optical USB mouse and compact keyboard suppli ed. All Infini ium models
support any Windows-compatible input device with a serial, PS/2 or USB interface.
Compressed internal format, bin ary data, comma and tab separat ed X and Y pairs or
voltage values.
BMP, PCX, TIFF, GIF or JPEG.
RJ-45 connector, supports 10Base- T and 100Base-T. Enables Web-enabled re mote
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.
2 ports. Supports PS/2 pointing and input devices.
2 ports. Al lows conne ction of USB perip herals l ike stor age device s and poi nting de vices
while the oscilloscope is on.
15 pin VGA, ful l color outpu t of scope wavefor m display.
15 pin XGA, ful l color output for using thi rd-party applications.
DC (±2.4 V); square wave (~715 Hz and 456 MHz);
trigger output (255 mV p-p into 50
5 V 50
Ω back-terminated.
10 MHz filtered sine wave with all harmonics ≤ -40 dBc. Amplitude into
50 Ω is 800 mV p-p to 1.26 V p-p (4 dBm ±2 dB) if derived fr om internal reference . Tracks
external reference i nput input ampl itude ±1 dB if applied and sele ceted.
Must be 10 MHz, input Z
dBm).
O
Ω).
= 50 Ω. Minimum 360 mV p- p (-5 d Bm), ma ximum 2.0 V p- p (+10
1–9
Chapter 1: General Information
Characteristics
General cha racterist ics
Temperatur e Operating: 5° C to +35° C.
Non-operating: -40° C to +70° C.
Humidity Operating: Up to 95% rela tive humidity (non-condensing) at +35°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 minute s per axis, 0.3 g(rms).
Non-operating: Random vi bration 5- 500 Hz, 10 minutes per axis, 2.41 g(rms);
resonant search 5-500 Hz, swept sine, 1 octave/minute sweep rat e, (0.75g),
5 minute resonant dwell at 4 resonances per axis.
Power 100-240 VAC at 50 or 60 Hz; max input power 550 Watts.
Weigh t Net: 13 kg (2 8.5 lbs.).
Shippi n g : 16 kg (3 5.2 lbs.).
Dimensions (excluding handle) Height: 216 mm (8.5 in).
Width: 437 mm (17.19 in).
Depth: 44 0 m m (17.34 in).
Safety Meets IEC 61010-1 +A2, CSA certified to C2 2.2 No.1010.1, self-certified to UL 3111.
1. Full scale is defined as 8 verti cal divisions. Magnification is used below 5 mV/div. Below 5 mV 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 and 1 V.
2. Vertical resolution for 8 bits = 0. 4% of full scale, fo r 12 bits = 0.024% of full s cale.
3. Within one year of previous calibration.
4. FFT amplitude readings are affe cted by scope probe and oscilloscope limitati ons and input amplifier
roll-off (e.g. -3 dB roll-off at specified bandwidth scope/probe.
5. The FFT signal to noi se rati o var ies with the v olt s/di v setti ng, th e memory dept h, and the us e of time or
frequency averaging.
6. Test signal amplitude ≥5 divisions peak-to-peak, test signal signal rise time
≤ 2 times scope rise ti me,
vertical scale ≥20 mV/div, sample rate = 40 GSa/s; sin(x )/x interpolati on 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 i ndividual 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.
CAT I and CAT II Definitions
Installation category (overvoltage category) I: Signal level, special equipment or parts of
equipment, telecommunication, electronic, etc., with smaller transient overvoltages than
installation category (overvoltage category) II.
Installation category (overvoltage category) II: Local level, appliances, portable equipment etc.,
with smaller transient overvoltages than installation category (overvoltage category) III.
1–10
Dimensions
The following pictures shows the dimensions of the frame.
Chapter 1: General Information
Dimensions
1–11
Chapter 1: General Information
Recommended test equipment
Recommended test equipment
The following table is a list of the test equipment required to test performance, calibrate and
adjust, and troubleshoot this oscilloscope. The table indicates the critical specification of the test
equipment and for which procedure the equipment is necessary. Equipment other than the
recommended model may be used if it satisfies the critical specification listed in the table.
Recommended Test Equipment
Equipment Required Critical Specifications Recommended Model Use
Digital Multimeter DC voltage me asureme nt accuracy bet ter than
Microwave CW
Generator
Power Splitter 2 Resistor Power Splitte r
Power Meter Agilent E-series power sensor compatibility Agilent E4418B or E4419B P
Power Sensor Maximum Frequency
Microwave Cable
Assembly
Cable Assembly
(2 required)
Adapter BNC Tee (m)(f)(f) Agilent 1250 -0781 P
Adapter BNC (f) to dual banana Agilent 1251-2277 P
Adapter 3.5 mm (f) to Precision BNC Agilent 54855-67604 P
Shorting Cap BNC (m) Agilent 1250-0929 A
Cable Assembly
(Cal Cable for
DSO80804A,
DSO81004A, and
DSO81204A)
Cable Assembly
(Cal Cable for
DSO81304A)
10 MHz Signal Source Frequency accuracy better than 0.4 ppm Agilent 53131A with
* Requires time base calibration once every 6 months
** Require s link to GPS
±0.1% of reading
Maximum Frequency
Power range: -20 dBm to +16 dBm into 50
Output resistance = 50 Ω
10 MHz Refer ence Signal Out put
Max Frequency
≥ 14 GHz
Ω
≥ 18 GHz
≥ 14 GHz
Power range: -24 dBm to +16 dBm
Ω characteristic impedance
50
3.5 mm (m) or SMA (m) connectors
Max Frequency
50
Ω characteristic impedance
BNC (m) connectors
Ω characteristic impedance
50
BNC (m) connectors
<= 12 Inch Length
NO Substitute Agilent 54855-61620 A
≥ 18 GHz
Agilent 34401 A or Agilent
3458A
Agilent E8247C with
Opt 520 or Agi lent 82712B
with Opt 1E5 or Agilent
8665B with Opt 004
Agilen t 11667B P
Agilent E4413A P
Agilent 8120-4948 or
Agilen t 11500E or
Gore EKD01D010480
Agilent 8120-1840 P
Agilent 8120-1838
or Agilent 10502A
Opt. 010 *
or Agilent 5071A or
Symmetricom 58503B **
P
P
P
A
A
Alternate Power Splitter/Power Sensor Equipment - List 1
Equipment Required Critical Specifications Recommended Model Use
Power Splitter 2 Resistor Power Splitte r
Max Frequency
Power Sensor Maximum Frequency
Power range: -24 dBm to +16 dBm
Adapters 3.5 mm (f) to Precision BNC
Type N (m) to 3.5 mm (f)
Type N (m) to 3.5 mm (m)
≥ 18 GHz
≥ 14 GHz
Agilen t 11667A P
Agilent E4412A P
Agilent 54855-67604
Agilent 1250-1744
Agilent 1250-1743
1–12
P
Chapter 1: General Information
Recommended test equipment
Alternate Power Splitter/Power Sensor Equipment - List 2
Equipment Required Critical Specifications Recommended Model Use
Power Splitter 2 Resistor Power Splitte r
Max Frequency
Power Sensor Maximum Frequency
Power range: -24 dBm to +16 dBm
Adapters 3.5 mm (f) to Precision BNC
3.5 mm (f) to 3. 5 m m (m )
Type N (m) to 3.5 mm (m)
≥ 18 GHz
≥ 14 GHz
Agilen t 11667A P
Agilent E4412A P
Agilent 54855-67604
Agilent 1250-1748
Agilent 1250-1750
P
1–13
Chapter 1: General Information
Recommended test equipment
1–14
2
To inspect package contents 2-3
To inspect options and accessories 2-5
To connect power 2-7
To connect the mouse, the keyboard, a LAN cable, a printer, and a GPIB cable 2-10
To connect SMA Cables 2-12
To tilt the oscilloscope upward for easier viewing 2-13
To turn on the oscilloscope 2-14
To turn off the oscilloscope 2-15
To verify basic oscilloscope operation 2-16
Installing application programs on Infiniium 2-17
Changing Windows System Settings 2-18
To clean the oscilloscope 2-19
Setting Up the Oscilloscope
Setting Up the Oscilloscope
This chapter shows you how to set up your Infiniium oscilloscope, connect power and
accessories, and verify general operation.
2–2
Chapter 2: Setting Up the Oscilloscope
To inspect package contents
To inspect package contents
❏ Inspect the shipping container for damage.
Keep a damaged shipping container or cushioning material until you have inspected the contents
of the shipment for completeness and have checked the oscilloscope mechanically and
electrically.
❏ Verify that you received the following items in the Infiniium Oscilloscope packaging.
• Infiniium Oscilloscope
•Mouse
• Calibration Cable
• Precision 3.5 mm Adaptors
• Accessory Pouch
• Front Panel Cover
•Keyboard
•Power cord
• Probe De-skew and Performance Verification Kit
• User’s Quick Start Guide
See Figure 2-1. (See table 2-4 for the power cord.) If anything is missing, contact your nearest
Agilent Technologies Sales Office. If the shipment was damaged, contact the carrier, then contact
the nearest Agilent Technologies Sales Office.
❏ Inspect the oscilloscope.
• If there is mechanical damage or a defect, or if the oscilloscope does not operate properly or
does not pass performance tests, notify your Agilent Technologies Sales Office.
• If the shipping container is damaged, or the cushioning materials show signs of stress, notify
the carrier and your Agilent Technologies Sales Office. Keep the shipping materials for the
carrier’s inspection. The Agilent Technologies Sales Office will arrange for repair or
replacement at Agilent’s option without waiting for claim settlement.
2–3
Figure 2-1
Infiniium Oscilloscope
with Accessory Pouch
Calibrat ion Cable
Chapter 2: Setting Up the Oscilloscope
To inspect package contents
Probe Deskew and
Performance Verification Kit
Precision 3.5 mm Adaptors (2)
Keyboard
Mouse
User’s Quick Start Guide
Package Cont ents for the Infiniium Oscilloscopes
2–4
Chapter 2: Setting Up the Oscilloscope
To inspect options and accessor ies
To inspect options and accessories
❏ Verify that you received the options and accessories you ordered and that none were
damaged.
If anything is missing, contact your nearest Agilent Technologies Sales Office. If the shipment
was damaged, or the cushioning materials show signs of stress, contact the carrier and your
Agilent Technologies Sales Office.
Some accessories that will enhance your work with the oscilloscopes are listed in table 2 -1.
Table 2 -1
Accessories fo r the Infiniium Oscilloscopes
Agilen t Mo de l
Number
54855-6 7604 18 GHz BNC-compatible to APC 3.5 mm adapt or
1250-2427 PC Board Mini-Probe Socket (h orizontal mo unt)
1250-2428 PC Board Mini-Probe Socket (v ertical moun t)
1250-1454 BNC to Miniature Probe Adapter
10240B BNC Blocking Capacitor
11094B 75
10024A 16-pin IC clip
10211A 24-pin IC clip
10833A GPIB cable, 1 m
10833B GPIB cable, 2 m
10833C GPIB cable, 4 m
10833D GPIB cable, 0.5 m
1131A 3.5 GHz InfiniiMax Active Probe
1132A 5 GHz InfiniiMax Active Probe
1134A 7 GHz InfiniiMax Active Probe
1156A 1.5 GHz Active Probe
1157A 2.5 GHz Active Probe
1158A 4 GHz Active Probe
1168A 10 GHz Active Probe
1169A 12 GHz Active Probe
1184A Testmobi le with keyboar d and mouse tray and drawer for accessories
34398A
34399A
54006A 6 GHz probe, 10:1 (500
C2950A Parallel printer cable, 2 m
C2951A Parallel printer cable, 3 m
E2609B Rackmount Kit
E2621A 75
E2622A 100/110/120
E2646A SQiDD Fixture for USB option
E2654A EZ-Probe
E2655A Additional probe deskew and perform ance verification kit
E2680A 1 MB Memory upgrade
Description
Ω Feedthrough Termination
RS-232-C printer cable
RS-232-C Adapter kit
Ω) or 20:1 (1 kΩ), .25 pf
Ω terminator
Ω differential terminator
®
Positioner
2–5
Chapter 2: Setting Up the Oscilloscope
To inspect options and accessories
Agilen t Mo de l
Number
E2681A EZJIT Jit ter Analysis Software
E2682A VoiceControl Retrofit Kit
E2683A USB Test Option
E2685A Telecomm unications Mask Test Templ ate Kit
E2688A Serial Data Analysis Software Option
E5850A Time-correlation fi xture, integrates Infiniium oscilloscope and 16700 logic analyzer
N5401A EZJIT Jitter Analysis Software
Description
2–6
Figure 2-2
Chapter 2: Setting Up the Oscilloscope
To connect power
To connect power
1 Position the oscilloscope where it will have sufficient clearance for airflow around the
top, back, and sides.
2 Position the oscilloscope so that it is not difficult to unplug the power cord.
Minimum 0 mm
Minimum 22 mm
Minimum 85 mm
both sides
Airflow requirements 250 cfm
Positionin g the Infiniium Oscilloscope w ith Sufficient Clearance
Minimum 39 mm
3 Connect the power cord to the rear of the oscilloscope, then to a suitable ac voltage
source (100 to 240 VAC ±10%, 50 and 60 Hz all models)
Maximum power dissipation: 550 W.
2–7
Figure 2-3
Chapter 2: Setting Up the Oscilloscope
To connect power
Infiniiu m Os cilloscope Po we r Cord Connection
The oscilloscope power supply automatically adjusts for line input voltages in the range 100 to
240 VAC. Therefore, you do not need to adjust an input line voltage setting. The line cord
provided is matched by Agilent Technologies to the country of origin of the order.
4
Ensure that you have the correct line cord. See table 2-4.
2–8
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