Agilent DSO8104A Data Sheet

Infiniium 8000 Series Oscilloscopes

Superior Mixed-Signal Analysis with Next-Generation MegaZoom Deep Memory

Data Sheet

The Infiniium 8000 Series oscilloscopes offer designers the industry’s first oscilloscope family with responsive deep memory, superior signal viewing and advanced analysis. The four digital storage oscilloscopes (DSOs) and mixed signal oscilloscopes (MSOs) combine the best in signal viewing with patented next-generation MegaZoom technology that maps the industry’s deepest and most responsive memory to a high-definition display system

that uncovers even the most subtle details in long, complex waveforms. Next-generation MegaZoom technology enables designers to capture analog and digital signals over long time spans, easily view critical events, and perform robust signal analysis all with a single instrument. Several memory options are available and are affordably priced to meet your performance needs and fit within your budget.

• 1 GHz and 600 MHz bandwidth

models

• MSO models with integrated

16 digital channels

• 4 GSa/s sample rate

• Up to 128 Mpts of MegaZoom fast

deep memory

• Next-generation MegaZoom

technology:

• Fastest, most responsive

deep memory

• High-definition XGA display

• Third-dimensional viewing with

256 color intensity grades

• Extensive application software suite

• Unrivaled InfiniiMax active probes

and accessories

• Award-winning usability

• Standard touch screen display

• Open Windows®XP Pro

operating system

• High-performance CPU system for

faster processing

• Now LXI functional class C compliant

Infiniium Benefits

Infiniium 8000 Series oscilloscopes

Model Bandwidth Channels Sample rate Standard memory Maximum memory

DSO8064A 600 MHz 4 4 GSa/s 1 Mpts max 128 Mpts

MSO8064A 600 MHz 4 + 16 4 GSa/s 1 Mpts max 128 Mpts

DSO8104A 1 GHz 4 4 GSa/s 1 Mpts max 128 Mpts

MSO8104A 1 GHz 4 + 16 4 GSa/s 1 Mpts max 128 Mpts

Dramatically speed debug time with mixed signal oscilloscope (MSO) models that integrate 16 digital channels

As embedded designs continue to increase in complexity with integration of higher-speed digital buses such as SDRAM and PCI, along with 16- or 32-bit processors, it becomes increasingly important for engineers to have flexible test instrumentation at their fingertips. When you need to isolate events of interest or monitor critical relationships between multiple signals, you need an instrument that is capable of viewing and triggering on more than just two or four signals at a time.

Agilent’s Infiniium MSOs tightly integrate four 4 channels and 16 digital channels in the same acquisition system to provide time-correlated viewing and triggering across 20 channels. Since an MSO is first and foremost an oscilloscope, no trade-offs in scope functionality are made; the instrument retains the usability and the real-time waveform capture of an oscilloscope. MSOs reduce the need for expensive multi-box solutions and can dramatically speed debug time.

Infiniium Benefits (continued)

MSO viewing and triggering

No matter how complicated the signals you are dealing with, the Infiniium MSO comes with powerful viewing and triggering capabilities to help you untangle them. The Infiniium MSO can trigger across all 16 digital channels and four scope channels. There are no limitations on the combination of analog and digital channels that can be used for a particular pattern or state trigger setting. This enables you to easily isolate and analyze complex interactions between digital signals and analog content in your design. Once your trigger condition is set, seamlessly view the cause-and-effect relationships and make measurements across all 20 channels.

MSO application

With more sophisticated memory buses such as SDRAM being deployed in embedded designs, it is important to be able to isolate a particular cycle of the memory bus that may be causing a problem. Isolating a SDRAM write cycle requires triggering across four digital channels when CS, CAS, and WE signals are low and RAS is high, along with one analog channel on a rising edge of Clk. You need a second analog channel

to capture a data bit of the SDRAM bus that you suspect has signal integrity problems. With the write cycle isolated, you can create an eye diagram of the data bit with fast waveform update rates and then worst-case setup and hold time measurements can be made, while also revealing anomalies or glitches. Doing this type of analysis with a traditional two or four-channel oscilloscope, or with a two-box logic analyzer and traditional oscilloscope, would be difficult or impossible.

Infiniium Benefits (continued)

Up to 128 Mpts fast deep memory

Sample rate and memory depth go hand-in-hand. Deep memory in oscilloscopes sustains a high sample rate over longer time spans. With up to 128 Mpts of acquisition memory, the Infiniium 8000 Series offers superior resolution when capturing long, complex waveforms. Deep memory is critically important in embedded designs implementing slow analog

with fast digital, serial buses, and RF communication.

Infiniium’s segmented memory acquisition mode adds additional capability to deep memory acquisition when you are capturing bursted or packetized signals. With segmented memory, only the packets of interest are captured and stored into acquisition memory for viewing and analysis — no valuable memory is consumed during

periods of inactivity between packets. Coupled with 128 Mpts of acquisition memory, 1000s of packets can be captured at the oscilloscope’s maximum sample rate over seconds, or even days of time. With precise time-tags on each segment, segmented memory acquisition mode effectively provides gigabytes of acquisition memory in a single, high sample rate acquisition by efficiently utilizing the real acquisition memory it has.

Infiniium Benefits (continued)

MegaZoom technology enables ultra-fast waveform update rates

Responsiveness and waveform update rate slow down dramatically on traditional deep memory oscilloscopes when they capture longer memory records, making them difficult and frustrating to use. The Infiniium 8000 Series oscilloscopes feature patented MegaZoom technology that provides the fastest waveform update rates, even when using the deepest memory records up to 128 Mpts. At the heart of MegaZoom technology is a custom ASIC built into the acquisition system that performs data acceleration from the ADC to waveform memory and display. With MegaZoom, deep memory is always available and always fast, so you never have to think about manually turning it on and incurring reduced responsiveness.

Next-generation MegaZoom provides best-in-class waveform viewing

In addition to providing the fastest, most-responsive deep memory, the Infiniium 8000 Series oscilloscopes feature best-in-class waveform viewing powered by next-generation MegaZoom technology. Next-generation MegaZoom supports a high-resolution XGA display system and maps up to

128 Mpts of memory to 256 levels of color intensity grades, delivering unmatched real-time insight into signal details. Next-generation MegaZoom’s dynamic range in the Z-axis provides designers a third-dimensional view of subtle details never before seen in an analysis-based oscilloscope. Up to this point, responsive deep memory capture, waveform analysis, and superior signal viewing have not coexisted.

With the Infiniium 8000 Series, you can have it all — deepest memory acquisition with fast waveform update rates, a high-definition display system, a powerful suite of application solutions, and integrated mixed-signal analysis capabilities.

Infiniium: “It’s like someone who sits down and actually uses a scope designed this one.”

Steve Montgomery

Director of Engineering, Linx Technologies

Get fast answers to your questions

with the comprehensive built-in information system. The task-oriented setup guide provides step-by-step instructions for several measurement procedures.

QuickMeas+ key gives you any five

automated measurements with the push of a button. You can also configure this key to print/save screen images among other functions.

Up to 128 Mpts of MegaZoom fast deep memory sustains maximum

sample rates for the longest time captures.

Remote access via web browser or

programming environment with GPIB commands over LAN allows you to access your oscilloscope from any networked PC.

E-mail-on-trigger allows you to leave

your oscilloscope, and when that intermittent event is captured, Infiniium sends you an e-mail that tells you exactly when it happened with an attached screen image.

10/100 Mbps LAN interface lets you

easily print to network printers, save files to network drives, and control the oscilloscope remotely.

Label waveforms and add comments

to Infiniium’s display for thorough documentation before saving screen images.

Context-sensitive right-click menus

allow quick access to oscilloscope settings, controls, and display properties.

High-definition XGA color display with 256 levels of intensity uncovers

subtle signal details that most oscilloscopes won’t show you…enabled by next-generation MegaZoom technology.

Measurement markers can be easily

controlled via front-panel arrow keys or dragging and dropping them with the pointer.

Drag-and-drop measurements from

the measurement bar provide an intuitive way to make a measurement on a particular cycle of your waveform.

Touch screen display

comes standard for mouse-free operation.

USB 2.0 port directly on front panel

makes it easy to save files to a USB mass storage device.

Next-generation MegaZoom

technology enables you to quickly pan and zoom through the deepest waveforms for detailed analysis.

Mixed signal oscilloscope (MSO) models seamlessly integrate four

analog scope channels with 16 digital channels that provide full-width viewing and triggering across many embedded signal interactions.

AutoProbe interface completely

configures your oscilloscope and provides power to various current and active probes, including InfiniiMax active probes.

Hands-free operation is available with

Infiniium’s VoiceControl option.

Internal 40 GB hard drive provides

large storage capacity for storing waveforms, screen images, and setup files. An optional removable hard drive is available for operation in secure environments.

Fast 2.9 GHz CPU with 1 GB RAM

enables two times faster task processing compared to previous generations.

Built-in CD-ROM drive on real panel

allows you to conveniently update the system software and install third-party application packages.

Open Windows XP Pro platform

enables you to install third-party applications such as Excel, LabVIEW, and MATLAB®to perform custom analysis and processing, all inside the oscilloscope.

XGA video monitor out provides the

ability to run third-party applications on a large external display while the internal display continues to display acquired waveforms.

Easy access to advanced features

is enabled by the Windows-based graphical user interface. In addition, graphical equivalents to all front-panel controls are available.

Award-winning ease-of-use can be

seen from Infiniium’s simple analog-like front panel controls, color-coded to correspond to displayed waveforms.

Infiniium Features

Drag-and-drop measurements

It’s simple: drag an icon from the measurement bar and drop it on the cycle you want to measure. You can make up to five measurements on your waveforms, on up to five different cycles. All the measurements appear at the bottom of the display with statistics and are color coded to the channel you are measuring. Scope measurements have never been this powerful or this easy.

Dialog boxes for easy setup

With Infiniium, you don’t need to navigate through annoying softkey menus. Dialog boxes display all the choices you need for measurement setups, all in one place. Help is available for each field, guiding you through each step.

Bus mode display

Bus mode display on MSOs allows quick and easy read-out of hexa-decimal representation of logic signals. Bus state mode display allows the bus readout to be updated only upon the edge of the clock source you select. Available only with Infiniium MSO models.

Simple zooming

Zooming with Infiniium’s graphical user interface is simple and convenient. Just use the mouse to draw a box around the area of interest and click inside. Zoom uses the full display so you get meaningful vertical as well as horizontal resolution gains. Use multiple zoom boxes to see deep inside your signal. Zooming couldn’t be simpler or faster.

Segmented memory acquisition mode

Are you trying to capture communications or radar signals that are bursting in nature? The new segment memory acquisition mode allows you to capture the short bursts at maximum sample rate while not consuming memory during the periods of inactivity. Both analog and digital signals can be captured.

Infiniium Features (continued)

AutoMask and mask test

Mask testing is simplified with AutoMask. Acquire a waveform, define tolerance limits, and create a test envelope. Mask testing provides a pass/fail comparison of an incoming signal to the test envelope. Easily test your design’s conformance to industry standards with the Communication Mask Test Kit option.

Advanced triggering

Advanced triggers are essential when investigating known problems. Infiniium offers a full range of advanced triggers to help you isolate and capture the condition you need to characterize. Advanced trigger setups are simplified by using intuitive dialog boxes with descriptive graphics.

Color-graded persistence with histograms

By providing seven levels of color grades for a visual representation of waveform distribution, color-graded persistence makes it easy to pick out signal anomalies and see how often they occur. Histograms quantify both noise and jitter in your target system.

High/low pass filter

This function applies a real-time digital filter to the source waveform that you choose. This filtering feature enhances your ability to examine important signal components by filtering out unwanted frequency components.

QuickMeasure and statistics

Instantly make five common measurements on your signal, with easy-to-read statistics, by pressing the QuickMeas+ button on the front of your Infiniium. The measurements displayed can be easily customized.

Infiniium Features (continued)

E-mail on trigger

Infiniium can automatically send an e-mail with a screen image of the display when the scope triggers. You can have your Infiniium send an e-mail to you or a message to your cell phone then control your scope from any Java-enabled web browser with Infiniium’s web-enabled feature.

Web-enabled control

For distributed teams, simply set up Infiniium on your LAN, and up to three users can access it from any Java™-enabled Web browser. No special software is required. You can easily grab screen shots for a report, or troubleshoot designs from a remote location.

Dual Monitor support

Dual Monitor mode allows you to run third-party applications on a large, external monitor with up to XGA resolution (1024 x 768 pixels) while using the scope’s built-in monitor for waveform display.

Infiniium IVI-COM driver

For a higher-level of instrument control, utilize the Infiniium IVI-COM instrument driver in your application. This IVI-COM driver takes full advantage of industry accepted standards and is compatible in application development environments such as Visual Studio® as well as in test and measurement development environments such as Agilent VEE Pro and National Instruments® LabView®. The Infiniium IVI-COM Instrument driver allows for easier use, higher performance, and instrument interchangeability in your oscilloscope control program. Download the Infiniium IVI-COM driver for free from Agilent Developer’s Network at

www.agilent.com/find/adn.

Windows XP Pro open system

Want to run Windows applications inside your Infiniium scope? All Infiniium 8000 Series scopes are based on a Windows XP Pro open platform that allows you to run Windows applications inside the Infiniium to add advanced analysis and functionaliy to the scope.

Infiniium Advanced Application Software

FPGA dynamic probe for Infiniium MSO (N5397A)

The N5397A FPGA dynamic probe for Infiniium MSOs provides the most effective solution for validating and debugging embedded designs incorporating Xilinx FPGAs. This innovative solution enables you to:

• View internal FPGA activity

correlated to external analog events — With the FPGA

dynamic probe, the Infiniium MSO’s 16 digital channels can be used to access up to 1024 internal signals, unlocking visibility into your design that you never had before. With the power of the MSO, these internal FPGA signals can be correlated to external analog content for determining cause and effect relationships.

• Make multiple measurements in seconds — Moving probe points internal to an FPGA used to require time consuming design recompiles. Now, in less than a second you can easily measure a different set of internal signals without design changes. By not changing the design, FPGA timing stays constant when you select new sets of internal signals for probing.

• Leverage the work you did in your design environment — The FPGA dynamic probe automatically maps internal signal names from your FPGA design tool to the MSO’s digital channel labels. This provides easy signal identification and eliminates unintentional mistakes while saving hours of time.

Low-speed serial data analysis software (option 007 or N5391A)

The N5391A low-speed serial data analysis (SDA) software provides a fast and easy way to debug Inter-Integrated Circuit (I2C) and 2-wire or 3-wire serial peripheral interface (SPI) serial communication buses. The low-speed SDA software provides the ability to capture and

automatically display decoded serial data in numerical format synchronized with the analog or digital waveform, display decoded packets in a sortable listing window view with automatic click and zoom capability, and perform search functions for a particular packet with navigator controls.

CAN serial data analysis software (option 008 or N5402A)

The N5402A CAN serial data analysis (SDA) software allows engineers to view both protocol layer information and physical layer signal characteristics inside a single instrument, the Infiniium oscilloscope. Numerical decode

values are automatically displayed and synchronized below the captured signal’s waveform, display decoded packets in a sortable listing window view with automatic click and zoom capability, and perform search functions for a particular packet with navigator controls.

Infiniium Advanced Application Software (continued)

High-speed serial data analysis software (option 003 or N5384A)

The N5384A high-speed serial data analysis (SDA) software provides an effective way to validate signal integrity for designs employing high-speed serial interfaces with embedded clocks. The high-speed SDA software, when used with Infiniium oscilloscopes, allows you to:

• recover embedded clocks with first-order PLL, second-order PLL, or constant frequency algorithms

• choose an external reference clock input

• display the recovered clock synchronized with the analog waveform view of the serial data stream

• build real-time eye diagrams

• unfold real-time eye diagrams to easily locate failures versus time

measurement histograms, measurement trending and jitter spectrum. EZJIT provides a setup wizard that guides you through the setup of the jitter measurement, explains how each jitter measurement works, and tells you when to use it.

EZJIT jitter analysis software (option 002 or E2681A)

The E2681A jitter analysis option provides the most commonly needed jitter measurements, including cycle-cycle jitter, N-cycle jitter, period jitter, time interval error, setup and hold time,

the most powerful and comprehensive set of tools for exploratory debug of jitter, and is remarkably easy to use. ASA’s oscilloscope tools work in tandem with Infiniium MSOs to provide measurements never before possible.

Oscilloscope tools (E2690B and N5385B)

The Agilent E2690B (US domestic) and N5385B (international) advanced time interval and jitter analysis software, licensed from Amherst Systems Associates (ASA), offers

multiple events simultaneously with resolution down to 70 ps events plus automated navigation to failure events. InfiniiScan software finders consist of: measurement, zone qualify, generic serial, non-monotonic edge and runt. InfiniiScan goes beyond the classic limitations of hardware triggering and deep memory.

InfiniiScan event identification software (option 009 or N5415A)

The Agilent InfiniiScan event identification software quickly and easily identifies signal integrity issues. This innovative software scans through thousands of acquired waveforms per second to help isolate anomalous signal behavior. InfiniiScan can scan for

• perform custom mask testing

• make TIE jitter measurements relative to the recovered clock or external reference clock

Infiniium Advanced Application Software (continued)

Ethernet performance validation and compliance software (N5392A)

The N5392A Ethernet electrical performance validation and compliance option 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 Agilent N5395B Ethernet electrical compliance test fixture and N5396A Gigabit Ethernet jitter test cable are available for making the physical connection between the Infiniium oscilloscope and the device under test.

USB 2.0 performance validation and compliance software (N5416A)

The Infiniium USB 2.0 electrical performance validation and compliance option provides a fast and reliable way to verify USB electrical specification compliance for USB 2.0 devices, hosts, and hubs. The Infiniium USB 2.0 test option executes the official USB-IF MATLAB scripts with MATLAB’s runtime engine

embedded in the oscilloscope. Results are displayed in a flexible report format with margin analysis. The Infiniium 8000 Series with bandwidths of 600 MHz and 1 GHz can appropriately test USB 2.0 low and full speed buses. The E2646A SQiDD test fixture is available for making the physical connection between the Infiniium oscilloscope and the device under test.

Vector signal analysis software for Infiniium (89601A)

The 89601A vector signal analyzer (VSA) software, used with the Infiniium 8000 Series, enables flexible signal analysis and demodulation up to 1 GHz bandwidth for troubleshooting wideband modulated signals in radar and communications applications. The solution provides:

• Flexible demodulation for measuring constellation diagrams, carrier offset, and frequency error for QPSK signals, 256 QAM signals and much more

• Display formats including spectrogram, phase vs. time, and frequency vs. time for rapid insight into complex signal behavior

• Error vector magnitude measurements (with 89601A option AYA)

• Markers to facilitate frequency, amplitude, offset, power, phase, other measurements

• Time gating that allows you to select specific portion of signals for signal analysis

• Variable frequency resolution

Infiniium Advanced Application Software (continued)

front panel or graphical user interface. Any program that can be run under Windows® XP can be launched from the Infiniium scope user interface or front panel, including applications such as Agilent VEE, Microsoft Excel, or MATLAB®.

My Infiniium Integration Package (option 006 or E2699A)

The E2699A My Infiniium Integration Package option allows you to extend the power of your Infiniium oscilloscope by letting you launch your application directly from the oscilloscope’s

Communication Mask Test Kit (E2625A)

Take the frustration out of communications testing and prove your designs conform to industry standards with the Communication Mask Test Kit option. Infiniium’s familiar Windows interface makes it easy for you to access the masks you need and configure your tests.

In addition, the Communication Mask Test Kit comes with a set of electrical communication adapters to ensure convenient, reliable, and accurate connections to your device under test. Includes more than 20 industry-standard ANSI T1.102, ITU-T G.703, and IEEE 802.3 communication signal mask templates.

Infiniium User-Definable Function

(Option 010 or N5430A)

The Agilent N5430A Infiniium User-Definable Function will open up new possibilities to mathematical analysis features of Infiniium by creating the gateway to MATLAB from MathWorks (www.mathworks.com/). You can now add your favorite MATLAB .m scripts as “math function operators,” and use them just like any other standard functions provided with the Infiniium. The scope passes data to MATLAB and then displays the

result back on the screen in real time. Requires MATLAB software separately.

Features:

• Seamless gateway to powerful MATLAB analysis functionality

• Real-time analysis, real-time update

• Requires XML programming and .m script file

• Supports 2 control variables, and 2 sources

• Supports MATLAB version R14 SP1 and later

Infiniium Advanced Application Software (continued)

VoiceControl software (E2682A)

If you’re making measurements on target systems with densely packed ICs, your hands are tied up holding probes, making it difficult to turn knobs and press buttons on the front panel of your scope. Infiniium’s award-winning VoiceControl option solves this problem. Just speak into the collar-mounted microphone to

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 1.25 volts per division.” The VoiceControl system does not require the scope to be trained to understand a particular user.

Logic analyzer/oscilloscope time correlation (E5850A optional)

With version 3.30 of logic analyzer operating system software, you can easily make time correlated measurements between an Agilent 16900 Series logic analysis system or Agilent 1680/90 Series benchtop logic analyzer and an Infiniium oscilloscope without a correlation fixture. All that is needed are a cross-over LAN cable and two BNC cables. Set the logic analyzer to trigger the oscilloscope or vice versa and immediately view logic

timing waveforms aligned with oscilloscope waveforms simultaneously on the logic analyzer display. Move global markers on the logic analyzer and watch Infiniium’s tracking markers move automatically in synch. Move Infiniium’s tracking

markers and watch the logic analyzer’s global markers move in synch. For the most precise correlation, the optional E5850A time correlation fixture can be used to automatically deskew logic and scope waveforms to the best possible accuracy.

VEE Pro with Infiniium (W1140A)

Agilent VEE Pro is a highly productive, intuitive, graphical programming environment for test program development. Looking for an alternative to complex programming environments? VEE simplifies the tasks required for test development. VEE comes pre-installed with a 30-day free trial license on all Infiniium oscilloscopes. VEE runs inside

Infiniium’s open Windows XP Pro operating system and uses the PCI bus for fast data transfer from the oscilloscope acquisition system to the VEE application, much faster than GPIB. Six powerful sample programs are provided on Infiniium hard drive to get you started with VEE’s advanced measurement and analysis capabilities with embedded MATLAB® scripts.

Infiniium Active Probing

Active probes

Probing high-frequency signals becomes more challenging as the variety of test points and the frequencies of the signals continue to grow. Probes need to be lightweight, small, affordable, and offer the accessories and probe tips you require to get your job done easily.

For high-speed differential signal measurements, the 1130A InfiniiMax differential probe amp, with its variety of probe

heads, is a perfect compliment to the Infiniium 8000 Series oscilloscopes. Its 1.5 GHz bandwidth, extremely low input capacitance, high common mode rejection and the patented resistor probe tip technology provide ultra-low loading of the DUT and superior signal fidelity.

The 1156A active probe is a small, low-mass, active probe also with

1.5 GHz bandwidth. The probe

offers a flat frequency response

across the entire probe bandwidth, even with a variety of accessories attached, giving you accurate insight into your high-speed measurement. Agilent offers a variety of probe tips to help you probe any test point.

For more information on probing solutions, see the Infiniium

Oscilloscope Probes, Accessories, and Options Selection Guide

(Agilent publication number 5968-7141 EN/EUS).

Model Probe bandwidth System bandwidth Single-ended/differential

1156A 1.5 GHz 1 GHz with MSO8104A and DSO8104A single-ended

600 MHz with MSO8064A and DSO8064A

1130A 1.5 GHz 1 GHz with MSO8104A and DSO8104A both*

†

600 MHz with MSO8064A and DSO8064A

* Depending on probe head used † For a complete probing solution, also order a connectivity kit or individual probe head(s).

Infiniium Performance Characteristics

Vertical: scope channels DSO8064A, MSO8064A, DSO8104A, MSO8104A

Input channels DSO8064A/DSO8104A: 4 analog

MSO8064A/MSO8104A: 4 analog + 16 digital

Analog bandwidth @ 50 Ω (–3 dB)* DSO8064A/MSO8064A: 600 MHz

DSO8104A/MSO8104A: 1 GHz

Calculated rise time

@ 50 Ω DSO8064A/MSO8064A: 583 ps

DSO8104A/MSO8104A: 350 ps

Input impedance* 1 MΩ ± 1% (13 pF typical), 50 Ω ± 1.5%

Sensitivity

1 mV/div to 5 V/div (1 MΩ) 1 mV/div to 1 V/div (50 Ω)

Input coupling 1 MΩ: AC, DC; 50 Ω:DC

Hardware bandwidth limit 20 MHz

Vertical resolution

8 bits, ≥12 bits with averaging

Channel-to-channel isolation DC to 50 MHz: 50 dB (any two channels with >50 MHz to 500 MHz: 40 dB equal V/div settings) >500 MHz to 1 GHz: 30 dB

DC gain accuracy*

2,4

± 1.25% of full scale at full resolution channel scale

Maximum Input Voltage*

1 MΩ 150 V RMS or DC, CAT I

± 250 V (DC + AC) in AC coupling

50 Ω 5 Vrms, CAT I

Offset range Vertical sensitivity Available offset

1 MΩ 1 mV to <10 mV/div ± 2 V

10 mV to <20 mV/div ± 5 V 20 mV to <100 mV/div ± 10 V 100 mV to <1 V/div ± 20 V 1 V to 5 V/div ± 100 V

50 Ω 1 mV to <5 mV/div ± 2 V

5 mV to <200 mV/div ± 5 V 200 mV to 1 V/div ± 20 V

Offset accuracy*

± (1.25% of channel offset +2% of full scale +1 mV)

Dynamic range ± 8 div from center screen (1 MΩ)

± 12 div from center screen (50 Ω)

DC voltage measurement accuracy*

2,4

Dual cursor ± [(DC gain accuracy)+(resolution)] Single cursor ± [(DC gain accuracy)+(offset accuracy)+(resolution/2)]

Example for single cursor accuracy for 70 mV signal, 10 mV/div, 0 offset: Accuracy = ± [1.25% (80 mV) + (1.25% (0) + 2% (80 mV) + 1 mV ) + (0.4%/2) (80 mV)] = ±3.8 mV

Infiniium Performance Characteristics (continued)

Vertical: digital channels MSO8064A, MSO8104A

Number of channels 16 Digital – labeled D15 – D0

Threshold groupings Pod 1: D7 – D0

Pod 2: D15 – D8

Threshold selections TTL, 5.0V CMOS, 3.3V CMOS, 2.5V CMOS, ECL, PECL, user defined

User-defined threshold range ±8.00 V in 10 mV increments

Maximum input voltage ±40 V peak CAT I

Threshold accuracy* ±(100 mV + 3% of threshold setting)

Input dynamic range ±10 V about threshold

Minimum input voltage swing 500 mV peak-to-peak

Input impedance 100 kΩ ± 2% (~ 8 pF) at probe tip

Channel-to-channel skew 2 ns typical, 3 ns maximum

Glitch detect ≥ 2.5 ns

Resolution 1 bit

Horizontal DSO8064A, MSO8064A, DSO8104A, MSO8104A

Main time base range DSO8064A/MSO8064A DSO8104A/MSO8104A

500 ps/div to 20 s/div 200 ps/div to 20 s/div

Horizontal position range 0 to ± 200 s

Delayed sweep range 1 ps/div to current main time base setting

Resolution 4 ps

Timebase accuracy 15 ppm (±0.0015%)

Delta-time measurement accuracy DSO8064A/MSO8064A DSO8104A/MSO8104A

≥ 256 averages, RMS 500 fs rms 400 fs rms ≥ 256 averages, Peak ±[(2.2 ps) + (15x10

-6

Channel-to-channel deskew range –100 µs to 100 µs

Modes Main, delayed, roll

Reference positions Left, center, right

Jitter measurement floor DSO8064A/MSO8064A DSO8104A/MSO8104A

Time interval error 7 ps rms 5 ps rms Period jitter 10 ps rms 7 ps rms N-cycle, cycle-cycle jitter 15 ps rms 11 ps rms

Infiniium Performance Characteristics (continued)

Acquisition: scope channels DSO8064A, MSO8064A, DSO8104A, MSO8104A

Real time sample rate (max)

2 channels 4 GSa/s Each channel 2 GSa/s

Equivalent time sample rate (max) 250 GSa/s

Memory depth

2 channels/each channel

Standard 1 M / 500 K Option 040 8 M / 4 M Option 080 16 M / 8 M Option 160 32 M / 16 M Option 320 64 M / 32 M Option 640 128 M / 64 M

Sampling modes

Real time

Normal Successive single-shot acquisitions Peak detect Captures and displays narrow pulses or glitches at all real time sample rates

High resolution Real-time boxcar averaging reduces random noise and increases resolution Equivalent time Random repetitive sampling (higher time resolution at faster sweep speeds) Segmented memory Captures bursting signals at maximum sample rate without consuming memory during

periods of inactivity. Selectable number of segments up to 32,768 depending on memory option installed. Minimum inter-segment time (or the time between the end of the previous acquisition and the beginning of the next acquisition) of 20 µs.

Averaging Selectable from 2 to 4096

Filters

Sin[x])/x Interpolation Filter On/Off selectable FIR digital filter. Digital signal processing adds points between

acquired data points to enhance measurement accuracy and waveform display quality. BW = sample rate/4

Acquisition: digital channels MSO8064A, MSO8104A

Maximum real time sample rate 1 GSa/s

Memory depth per channel 32 M

Minimum width glitch detection 2.5 ns

Infiniium Performance Characteristics (continued)

Trigger: scope channels DSO8064A, MSO8064A, DSO8104A, MSO8104A

Sensitivity

Internal

DC to 600 MHz: 0.6 div 600 MHz to 1 GHz: 1.5 div (50 Ω)

Auxiliary DC to 600 MHz: 300 mVp-p

Level range

Internal ± 8 div from center screen (1 MΩ)

± 8 div from center screen (50 Ω)

Auxiliary ± 5 V

Sweep modes Auto, triggered, single

Trigger coupling DC, AC, low frequency reject (50 kHz high pass filter), high frequency reject

(50 kHz low pass filter)

Trigger conditioning Noise reject adds hysteresis to trigger circuitry decreasing sensitivity to noise

Trigger holdoff range 50 ns to 10 s

Trigger jitter 8 ps ± 0.05 ppm x |delay setting| rms

Trigger rate

Normal real-time acquisition mode > 5,000 max triggers/second

Equivalent-time acquisition mode > 23,000 max triggers/second

Trigger actions Specify an action to occur, and the frequency of the action, when a trigger condition occurs.

Actions include: e-mail on trigger and QuickMeas+ functions

Trigger modes

Edge Triggers on a specified slope and voltage level on any channel, auxiliary trigger or line input. Glitch Triggers on glitches narrower than the other pulses in your waveform by specifying a width

less than your narrowest pulse and a polarity. Minimum glitch width is 500 ps (scope channels) or 2.5 ns (digital channels). Glitch range settings: <1.5 ns to <10 s (scope

channels), <5 ns to <10 s (digital channels). Line Triggers on the line voltage powering the oscilloscope. Pattern Triggers when a specified logical combination of the channels is entered, exited, is present

or absent for a specified period of time or is within a specified time range. Each channel

can have a value of high (H), low (L) or don’t care (X). State Pattern trigger clocked by the rising or falling edge, or both, of one channel.

Logic type: AND or NAND. Delay by time The trigger is qualified by an edge. After a specified time delay between 5 ns to 10 s, a

rising or falling edge on any one selected input will generate the trigger. Delay by events The trigger is qualified by an edge. After a specified delay between 1 to 16,000,000 rising or

falling edges on any one selected input will generate the trigger. TV Trigger on one of the three standard television waveforms: 525 lines/60 Hz (NTSC)

625 lines/50 Hz (PAL), or define a custom waveform.

Violation triggers

Pulse width See Trigger Mode Glitch for performance characteristics. Greater than and less than

selections available. 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 greater than or

less than the amount of time specified.

Infiniium Performance Characteristics (continued)

Trigger: digital channels MSO8064A, MSO8104A

Threshold range (user defined) ±8.0 V in 10 mV increments

Threshold accuracy* ±(100 mV + 3% of threshold setting)

Predefined thresholds TTL=1.4 V, 5.0 V CMOS=2.5 V, 3.3 V CMOS=1.65 V, 2.5 V CMOS=1.25 V, ECL=–1.3 V, PECL=3.7 V

Measurements and math DSO8064A, MSO8064A, DSO8104A, MSO8104A

Waveform measurements

Voltage (scope channels only) Peak-to-peak, minimum, maximum, average, RMS, amplitude, base, top, overshoot,

preshoot, upper, middle, lower, runt (with InfiniiScan) Time (all channels) Period, frequency, positive width, negative width, duty cycle, delta time Time (scope channels only) Rise time, fall time, Tmin, Tmax, channel-to-channel phase, setup time, hold time Mixed (scope channels only) Area, slew rate Frequency domain FFT frequency, FFT magnitude, FFT delta frequency, FFT delta magnitude Eye pattern Eye height, eye width, jitter, crossing %, Q-factor, duty cycle distortion Jitter clock (scope only) Cycle-cycle jitter, N-cycle jitter, cycle-cycle +width, cycle-cycle –width, cycle-cycle duty

cycle (all with EZJIT) Jitter data (scope only) Time interval error (TIE), data rate, unit interval (all with EZJIT)

Measurement modes

Automatic measurements Measure menu access to all measurements, five measurements can be displayed

simultaneously with statistics 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 a particular displayed waveform cycle

Statistics Displays the mean, standard deviation, minimum, maximum range, and number of

measurement values for the displayed automatic measurements

Histograms (scope channels only) Vertical (for timing and jitter measurements) or horizontal (noise and amplitude change)

modes, regions are defined using waveform markers. Measurements included: mean,

standard deviation, mode, peak-to-peak, median, total hits, peak (area of most hits), and

mean ± 1, 2, and 3 sigma

Mask testing Allows pass/fail testing to user-defined or Agilent-supplied waveform templates. AutoMask

allows user to create a mask template from a captured waveform and define tolerance

range in time/voltage or percentage. Test modes include test forever, test to specified time

or event limit, and stop on failure. Communications Mask Test Kit option provides a set of

ITU-T G.703, ANSI T1.102, and IEEE 802.3 industry standard masks for compliance testing.

Marker modes Manual markers, track waveform data, track measurements

Waveform math Four functions f1-f4. Select from add, average, common mode, differentiate, divide, FFT

magnitude, FFT phase, high pass filter, integrate, invert, low pass filter, magnify, min, max,

multiply, smoothing, subtract, versus

FFT

Frequency range

DC to 2 GHz (2 channels), DC to 1 GHz (each channel) Frequency resolution Resolution = sample rate / memory depth Best resolution at maximum sample rate 4 GSa/s / 32 M = 125 Hz Frequency accuracy (1/2 frequency resolution)+(5x10

-5

)(signal frequency)

Signal-to-noise ratio

80 dB at 1 Mpts memory depth

Window modes Hanning, flattop, rectangular

Infiniium Performance Characteristics (continued)

Display, computer system and peripherals, I/O ports DSO8064A, MSO8064A, DSO8104A, MSO8104A

Display 8.4 inch diagonal color TFT-LCD with high-resolution touch screen Resolution XGA – 1024 pixels horizontally x 768 pixels vertically with 256 levels of intensity grades Annotation Up to 12 labels, with up to 100 characters each can be inserted into the waveform area Waveform styles Connect dots, dots, color graded infinite persistence, infinite persistence

Simultaneous grids One, two, or four

Waveform display update rate

Normal real-time acquisition mode > 5,000 max waveforms/second

Computer system and peripherals

CPU Intel Celeron 2.93 GHz microprocessor CPU memory 1024 MB Drives ≥40 GB internal hard drive (optional removable hard drive), CD-ROM drive on rear panel

File types

Waveforms Compressed internal format, CSV XY pairs, TSV XY pairs, TXT Y values, binary data format 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, 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 Two ports; supports PS/2 pointing and input devices USB 2.0 Five ports (one port on front panel, four ports on rear panel); allows connection of USB

peripherals like storage devices and pointing devices Video output 15 pin XGA; switchable in software between full color output of oscilloscope waveform

display or dual-monitor video output for displaying third-party applications Auxiliary output DC (±2.4 V); square wave (715 Hz[±15%], [±5%]); trigger output (255 mV p-p into 50 Ω);

10 MHz reference clock output TTL trigger output TTL compatible trigger output signal

Infiniium Performance Characteristics (continued)

General characteristics DSO8064A, MSO8064A, DSO8104A, MSO8104A

Temperature

Operating 0°C to + 50°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, ± 10%, Cat II, 47 to 63 Hz; Max power dissipated: 440 W

Weight Net: 13.9 kg (30.6 lbs.)

Shipping: 16.4 kg (36.1 lbs.)

Dimensions (excluding handle) Height: 216 mm (8.5 in); width: 437 mm (17.19 in); depth: 440 mm (17.34 in)

Safety Meets IEC1010-1 +A2, CSA certified to C22.2 No.1010.1, Self certified to UL 3111

* Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10°C from firmware calibration temperature. 1 Rise time figures are calculated from t r = 0.35/bandwidth. 2 Magnification is used below 5 mV/div range. Below 5 mV/div, full scale is defined as 40 mV. Full scale is defined as the major attenuator setting above an intermediate setting.

(Major settings 50 Ω: 10 mV, 20 mV, 50 mV, 100 mV, 200 mV, 500 mV, 1 V, 1 MΩ: all of the above plus 2 V). 3 Vertical resolution for 8 bits = 0.4% of full scale, for 12 bits = 0.024% of full scale. 4 The dc gain accuracy decreases 0.08% of full scale per degree C from the calibration temperature. 5 Maximum 2-channel memory depth only available at maximum 2-channel sample rate. Maximum each channel memory depth available at any selectable sample rate. 6 Valid for vertical ranges > 5 mV / div. 7 FFT amplitude readings are affected by input amplifier roll-off; DSO8064A and MSO8064A: –3 dB at 600 MHz, with amplitude decreasing as frequency increases above 600 MHz;

DSO8104A and MSO8104A: –3 dB at 1 GHz, with amplitude decreasing as frequency increases above 1 GHz. 8 Noise floor varies with memory depth and with averaging on or off.

Infiniium Ordering Information

Infiniium 8000 Series oscilloscopes

Model Bandwidth Channels Sample rate Standard memory Maximum memory

DSO8064A 600 MHz 4 4 GSa/s 1 Mpts 128 Mpts

MSO8064A 600 MHz 4 + 16 4 GSa/s 1 Mpts 128 Mpts

DSO8104A 1 GHz 4 4 GSa/s 1 Mpts 128 Mpts

MSO8104A 1 GHz 4 + 16 4 GSa/s 1 Mpts 128 Mpts

All models include: optical USB mouse, condensed keyboard, stylus, User's Quick Start Guide, built-in information system (also contains Service Guide and Programmer’s Guide in electronic PDF format), accessory pouch, front panel cover, power cord, and one-year warranty.

Standard probes included

Agilent model Passive probes Logic cable kit

DSO8064A 10073C 10:1 passive probe (qty 4) None

MSO8064A 10073C 10:1 passive probe (qty 4) 54826-68701 MSO logic cable kit (qty 1)

DSO8104A 10073C 10:1 passive probe (qty 4) None

MSO8104A 10073C 10:1 passive probe (qty 4) 54826-68701 MSO logic cable kit (qty 1)

For information about the Infiniium 80000 Series oscilloscope and InfiniiMax probing solutions up to 13 GHz of system bandwidth, please visit our web site at www.agilent.com/find/scope.

The Agilent 81100A series pulse pattern generators are a perfect complement to your Infiniium oscilloscope for a complete stimulus and response measurement system.

Infiniium Ordering Information (continued)

MegaZoom deep memory options on new units

Options Description

040 8 Mpts on 2 channels, 4 Mpts on each channel

080 16 Mpts on 2 channels, 8 Mpts on each channel

160 32 Mpts on 2 channels, 16 Mpts on each channel

320 64 Mpts on 2 channels, 32 Mpts on each channel

640 128 Mpts on 2 channels, 64 Mpts on each channel

MegaZoom deep memory options after-purchase

Options Description

N5407A-040 8 Mpts on 2 channels, 4 Mpts on each acquisition channel

N5407A-080 16 Mpts on 2 channels, 8 Mpts on each acquisition channel $

N5407A-160 32 Mpts on 2 channels, 16 Mpts on each acquisition channel

N5407A-320 64 Mpts on 2 channels, 32 Mpts on each acquisition channel

N5407A-640 128 Mpts on 2 channels, 64 Mpts on each acquisition channel

Users can install memory options without opening the instrument case or requiring on-site service.

Infiniium Ordering Information (continued)

Probe options

Options Description

54826-68701 MSO logic probe kit

(One comes standard with the MSO8064A and MSO8104A models)

10070C 1:1, 1 MΩ passive probe

10072A Fine-pitch probe kit for 10070 Series passive probes

10073C 10:1, 2.2 MΩ passive probe (four come standard with all models)

10075A 0.5 mm IC probing kit for 10070 Series passive probes

1147A 50 MHz, 50 A AC/DC current probe

1153A 200 MHz differential probe

1155A 750 MHz, 2-channel, low-mass active probe

1156A 1.5 GHz active probe

1130A 1.5 GHz InfiniiMax probe amplifier – NO PROBE HEADS INCLUDED

†

E2675A InfiniiMax differential browser probe head kit

E2668A InfiniiMax connectivity kit for single-ended measurements

E2669A InfiniiMax connectivity kit for differential measurements

E5396A Half-size (17 channel) Soft Touch connectorless logic probe for MSO models

† For a complete probing solution, also order a connectivity kit or individual probe head(s).

Hardware option (factory installed)

Options Description

017 ≥ 40 GB removable hard disk drive. Replaces ≥ 40 GB internal hard disk

with a ≥ 40 GB removable hard disk. Order the N5422A for additional hard disk drive cartridges that contain the full Windows operating system and oscilloscope application.

Advanced application software options (factory installed)

Options Description

002 EZJIT jitter analysis software

003 High-speed serial data analysis software with clock recovery

006 My Infiniium integration package

007 Low-speed serial data analysis software for I2C and SPI

008 CAN serial data analysis software

009 InfiniiScan event identification software

010 Infiniium user-defined function application software

Infiniium Ordering Information (continued)

Advanced application software options (user installed)

Options Description

FPGA Debug

N5397A FPGA dynamic probe for Infiniium mixed signal oscilloscopes

(option 001 for oscilloscope-locked license, option 002 for PC-locked license)

Analysis

N5391A Low-speed serial data analysis software for I2C and SPI

N5402A CAN serial data analysis software

N5384A High-speed serial data analysis software with clock recovery

89601A Vector signal analysis software (requires configuration)

N5415A InfiniiScan event identification software

N5430A Infiniium user-defined function application software

Jitter

E2681A EZJIT jitter analysis software

E2690B Oscilloscope tools software with advanced jitter analysis

(option 004 for DSO/MSO8064A, option 003 for DSO/MSO8104A)

Compliance

N5392A Ethernet electrical performance validation and compliance software

N5395B Ethernet electrical compliance test fixture

N5396A Gigabit ethernet jitter test cable

N5416A USB 2.0 electrical performance validation and compliance software

E2646A USB 2.0 SQiDD test fixture

N2649A USB 2.0 high-speed test fixture set

Utilities

E2699A My Infiniium integration package

E2625A Communication mask test kit

E2682A VoiceControl for hands-free operation

Hardware accessory options

Options Description

1184A Testmobile with keyboard/mouse tray and drawer for accessories

E2609B Rackmount kit $

E5850A Time-correlation fixture for logic analyzer and oscilloscope precision deskew*

* Not required for correlation, only needed for the most precise deskew between oscilloscope and logic analyzer.

Calibration option

Options Description

A6J ANSI Z540-compliant calibration

Infiniium Ordering Information (continued)

Related Literature

Publication Title Publication Type Publication Number

Agilent Technologies Digital and Mixed Signal Oscilloscopes Selection Guide 5988-8460EN/ENUS

Infiniium Oscilloscope Probes, Accessories and Options Data Sheet 5968-7141EN/ENUS

N5397A FPGA Dynamic Probe for Infiniium Mixed Signal Oscilloscopes Data Sheet 5989-1848EN

E2681A EZJIT Jitter Analysis Software Data Sheet 5989-0109EN

E2690B Oscilloscope Tools Software with Advanced Jitter Analysis Data Sheet 5989-3525EN

N5384A High-Speed Serial Data Analysis and Clock Recovery Software Data Sheet 5989-0108EN

N5391A Low-Speed Serial Data Analysis Software for I2C and SPI Data Sheet 5989-1250EN

N5402A CAN Serial Data Analysis Software Data Sheet 5989-3632EN

89601A Infiniium Oscilloscopes and 89601A Vector Signal Analysis Software Data Sheet 5989-0947EN

N5392A Ethernet Electrical Performance Validation and Compliance Software Data Sheet 5989-1527EN

N5416A USB 2.0 Electrical Performance Validation and Compliance Software Data Sheet 5989-4044EN

E2625A Communication Mask Test Kit and E2698A Ethernet Masks Data Sheet 5989-0372EN

E2699A My Infiniium Integration Software Data Sheet 5988-9934EN

N5415A InfiniiScan Event Identification software Data Sheet 5989-4605EN

N5430A Infiniium User-Defined Function Application Software Data Sheet 5989-5632EN

Agilent Mixed Signal Oscilloscopes: 6-minute Video Demonstration Video CD 5988-9288EN

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