DPO7000 Series

Digital Phosphor Oscilloscopes
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Features & Benefits

  • 3.5 GHz Bandwidth Model for Serial and Digital Applications
  • 2.5 GHz, 1 GHz, and 500 MHz Bandwidth Models for All Applications
  • Up to 40 GS/s Real-time Sample Rate on One Channel and up to 10 GS/s on All Four Channels
  • Up to 500 Megasamples Record Length with MultiView Zoom™ Feature for Quick Navigation
  • >250,000 wfms/s Maximum Waveform Capture Rate
  • Up to 310,000 Waveforms per Second with FastFrame™ Segmented Memory Acquisition Mode
  • User-selectable Bandwidth Limit Filters for Better Low-frequency Measurement Accuracy
  • MyScope® Custom Windows and Right Mouse Click Menus for Exceptional Efficiency
  • Event Search and Mark to Find Specific Events in the Entire Waveform
  • Pinpoint® Triggering provides the Most Flexible and Highest Performance Triggering, with Over 1400 Combinations to Address Virtually Any Triggering Situation.
  • 12.1” XGA Display with Touch Screen
  • Communications Mask Testing
  • Clock Recovery from Serial Data Streams
  • 64-bit NRZ Serial Pattern Trigger for Isolation of Pattern-dependent Effects up to 1.25 Gb/s
  • Low-speed Serial Protocol Triggering and Decode (I2C, SPI, RS-232, CAN, LIN, and FlexRay)
  • Technology-specific Software Solutions provide Built-in Domain Expertise for MIPI® D-PHY, Ethernet, USB 2.0 Compliance Testing, Jitter, Timing, Eye Diagram, Power, DDR Memory Bus Analysis, CAN, LIN, and FlexRay Network Design
  • OpenChoice® Software with Microsoft Windows XP OS enables Built-in Networking and Extended Analysis

Applications

  • Signal Integrity, Jitter, and Timing Analysis
  • Verification, Debug, and Characterization of Sophisticated Designs
  • Debugging and Compliance Testing of Serial Data Streams for Telecom and Datacom Industry Standards
  • Low-speed Serial Bus Design (I2C, SPI, RS-232, CAN, LIN, and FlexRay)
  • Investigation of Transient Phenomena
  • Power Measurements and Analysis
  • Spectral Analysis

Unmatched Performance for Greater Insight Into Your Design to Get Your Work Done Faster

The DPO7000 Series are the new generation of real-time digital phosphor oscilloscopes and are the industry’s best solution to the challenging signal integrity issues faced by designers verifying, characterizing, debugging, and testing sophisticated electronic designs.

The family features exceptional performance in signal acquisition and analysis, operational simplicity, and unmatched debugging tools to accelerate your day-to-day tasks. The largest screen in the industry and the intuitive user interface provide easy access to the maximum amount of information.

Unmatched Acquisition Performance

Signal Fidelity of Tektronix Oscilloscopes Ensures Confidence in Your Measurement Results
  • High sample rate on all models, on all channels, to capture more signal details (transients, imperfections, fast edges)
    • 40 GS/s on one channel on the 2.5 GHz and 3.5 GHz models
    • Option 2SR to double the maximum real-time sample rate for the 1 GHz model
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  • High bandwidth up to 3.5 GHz, matched across 2, 3, or 4 channels and enabled by Tektronix proprietary DSP enhancement. The user-selectable DSP filter on each channel provides magnitude and phase correction plus extension to 3.5 GHz for more accurate signal fidelity for complex measurements. The DSP filter on each channel can also be switched off to take advantage of true 2.5 GHz analog bandwidth for applications needing the highest available raw data capture.
  • The DPO7000 Series oscilloscopes include as a standard feature a series of user-selectable bandwidth limit filters. These filters preserve the instrument’s bandwidth roll-off characteristics, flatness, and phase linearity within the new frequency range, thereby reducing the effects of out-of-band noise on measurements. Now, designers can purchase one instrument for their highest bandwidth needs and easily optimize it to handle lower-frequency measurements as well.

  • User-selectable bandwidth limiting choices.

  • Very low jitter noise floor and vertical accuracy for very accurate measurements
  • Long acquisition to provide more resolution and longer time sequence
    • Standard 10 million data points per channel on the DPO7000 Series
    • Optional up to 500 million total data points on 2.5 GHz and 3.5 GHz models
    • Optional up to 250 million total data points on the 500 MHz and 1 GHz models
    • Easily manage this deep record length, provide detailed comparison and analysis of multiple waveform segments with the MultiView Zoom™ feature. Automatically scroll through deep records visually, or create a math expression to instantly highlight differences
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Zoom in on four areas of interest simultaneously to compare them.

  • Highest-performance probing solutions for differential and single-ended voltage signals as well as current measurement, because accurate design verification depends on high-bandwidth access to critical signals and high-fidelity signal capture
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Tektronix active probes achieve high-speed signal acquisition and measurement fidelity.

Unmatched Versatility

Get the Most of Your Oscilloscope by Fully Controlling its Waveform Acquisition and Display Parameters
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3 modes of operation of the horizontal time base.

You have the choice of three horizontal time base modes of operation. If you are simply doing signal exploration and want to interact with a lively signal, you will use the Automatic or interactive default mode that provides you with the liveliest display update rate. If you want a precise measurement and the highest real-time sample rate that will give you the most measurement accuracy, then the Constant Sample Rate mode is for you. It will maintain the highest sample rate and provide the best real-time resolution. The last mode is called the Manual mode because it ensures direct and independent control of the sample rate and record length.

With the MyScope® Feature, Create Your Own Control Windows with Only the Controls, Features, and Capabilities that You Care About
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Drag and drop menu items of interest to create the MyScope control window.

Easily create your own personalized "toolbox" of oscilloscope features in a matter of minutes using a simple, visual, drag-and-drop process. Once created, these custom control windows are easily accessed through a dedicated MyScope button and menu selection on the oscilloscope button/menu bar, just like any other control window. You can make an unlimited number of custom control windows, enabling each person who uses the oscilloscope in a shared environment to have their own unique control window. MyScope control windows will benefit all oscilloscope users, eliminating the ramp-up time that many face when returning to the lab after not using an oscilloscope for a while, and enables the power user to be far more efficient. Everything you need is found in one control window rather than having to constantly navigate through menu after menu to repeat similar tasks.

With OpenChoice® Software, Customize Your Test and Measurement System with Familiar Analysis Tools
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Capture data into Microsoft Excel using the unique Excel toolbar, and create custom reports using the Word toolbar.

The analysis and networking features of OpenChoice software add flexibility to Windows XP Tektronix oscilloscopes: The Windows XP Remote Desktop functionality enables remote monitoring of the instrument over the internet. Using the fast embedded bus, waveform data can be moved directly from acquisition to analysis applications on the Windows desktop at much faster speeds than conventional GPIB transfers. Implementation by Tektronix of industry-standard protocols, such as TekVISA™ interface and ActiveX controls, are included for using and enhancing Windows applications for data analysis and documentation. Support for the DPO7000 Series is also available with NI LabVIEW SignalExpress™ Tektronix Edition. IVI-COM instrument drivers are included to enable easy communication with the oscilloscope using GPIB, serial data, and LAN connections from programs running on the instrument or an external PC. Or, use the Software Developer’s Kit (SDK) to help create custom software to automate multistep processes in waveform collection and analysis with Visual BASIC, C, C++, MATLAB, LabVIEW, LabWindows/CVI, and other common Application Development Environments (ADE). Integration of the oscilloscope with external PCs and non-Windows hosts is also supported by the DPO7000 Series software solutions. In addition, the OpenChoice architecture provides a comprehensive software infrastructure for faster, more versatile operations. Data transfer programs, such as the Excel or Word toolbar, are used to simplify analysis and documentation on the Windows desktop or on an external PC.

Accelerate the Debug of Complex Electrical Designs

FastAcq Acquisition Mode Expedites Debugging by Clearly Showing Imperfections
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Maximize the probability of capturing elusive glitches and other infrequent events with FastAcq acquisition mode.

More than just color grading, FastAcq enabled by Tektronix proprietary DPX® acquisition technology captures signals up to more than 250,000 waveforms per second on all 4 channels simultaneously, dramatically increasing the probability of discovering infrequent fault events. And with a simple turn of the intensity knob you can clearly see “a world others don’t see,” because frequency of occurrence is color coded. Some oscilloscope vendors claim high waveform capture rates for short bursts of time, but only the DPO7000 Series, enabled by DPX technology, can deliver these fast waveform capture rates on a sustained basis – saving minutes, hours, or even days by quickly revealing the nature of faults so sophisticated trigger modes can be applied to isolate them.

The Ability to Trigger an Oscilloscope on Events of Interest is Paramount in Complex Signal Debug and Validation
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Isolate glitches down to 200 ps wide.

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Isolate Setup and Hold violations down to 360 ps.

Whether you’re trying to find a system error or need to isolate a section of a complex signal for further analysis, like a DDR Read or Write burst, Tektronix Pinpoint® triggering provides the solution. The Pinpoint trigger system uses Silicon Germanium (SiGe) technology to provide trigger sensitivity of up to the bandwidth of the instrument, and allows selection of most trigger types on both A and B trigger circuits. It can capture very narrow glitches with very little trigger jitter. Other trigger systems offer multiple trigger types only on a single event (A event), with delayed trigger (B event) selection limited to edge-type triggering and often do not provide a way to reset the trigger sequence if the B event doesn’t occur. But Pinpoint triggering provides a full suite of advance trigger types on both A and B triggers with Reset triggering to begin the trigger sequence again after a specified time, state, or transition so that even events in the most complex signals can be captured. Other oscilloscopes typically offer less than 20 trigger combinations; Pinpoint triggering offers over 1400 combinations, all at full performance.

With Enhanced Triggering, you can choose to compensate for the difference in time there is between the trigger path and the display path and eliminate virtually any trigger jitter at the trigger point. In this mode, the trigger point can be used as a measurement reference.

Trigger on the Most Relevant Bit Sequence of the Industry-standard Serial Bus
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Easily trigger on a specific I2C address.

I2C (Inter-Integrated Circuit) triggering is a standard feature and includes Start Condition, Missing Acknowledge, Restart, Data Read, Address, and/or Data Frame, in a 10 bit or 7 bit format with a specific selection to choose whether or not to include the R/W bit.

SPI (Serial Peripheral Interface) triggering is a standard feature and includes triggering on a data pattern within a user-definable frame.

RS-232 triggering is a standard feature.

CAN (Controller Area Network) triggering is an optional feature (Opt. LSA) and includes synchronization to the Start or End of a CAN frame on any CAN high or CAN low signal, triggering on Type of Frame (Data, Remote, Overload), Identifier, Data, Missing Acknowledge, and Bit Stuffing error.

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Triggering on an analog HDTV tri-level sync signal and examining horizontal blanking interval.

Analog HDTV/EDTV Triggering for emerging standards like 1080i, 1080p, 720p, and 480p as well as standard video triggering on any line within a field, all lines, all fields, odd or even fields for NTSC, SECAM, and PAL video signals. In addition, IRE and mV graticules can be selected for easier measurements and visual inspection. This is a standard feature.

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Serial pattern triggering to debug pattern-dependent issues.

Serial Pattern Triggering for NRZ serial data streams with built-in clock recovery (available on models DPO7254 and DPO7354 only) to debug serial architectures. The instrument can recover the clock signal, identify the transitions, and decode characters and other protocol data. With the combination of the Serial Trigger and Protocol Decode software, you can see the captured bit sequences decoded into their words for convenient analysis (for 8b/10b and other encoded serial data streams), or you can set the desired encoded words for the serial pattern trigger to capture. This serial trigger option covers NRZ serial standards up to 1.25 Gb/s.

Pattern Lock Triggering adds a new dimension to NRZ serial pattern triggering by enabling the oscilloscope to take synchronized acquisitions of a long serial test pattern with outstanding time base accuracy. Pattern lock triggering can be used to remove random jitter from long serial data patterns. Effects of specific bit transitions can be investigated, and averaging can be used with mask testing. This feature is included as part of Option PTM on the DPO7254 and 7354 models.

Unmatched Usability

The TekVPI™ probe interface provides versatility and ease of use enabled by intelligent bidirectional oscilloscope-to-probe communication.

The DPO7000 Series are fast-responding instruments and contain a comprehensive suite of features such as a touch screen, shallow menu structures, intuitive graphical icons, knob-per-channel vertical controls, support for right mouse clicks, mouse wheel improvements, saving of waveforms and measurements available in Preview mode, and Export/Save/Recall menu improvements.

Interoperability with Logic Analyzers for Digital Design and Debug
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An integrated toolset for digital design and troubleshooting.

The Tektronix Integrated View (iView™) data display enables digital designers to solve signal integrity challenges and effectively debug and verify their systems more quickly and easily. This integration allows designers to view time-correlated digital and analog data in the same display window, and isolate the analog characteristics of the digital signals that are causing systems failures. No user calibration is required. And, once set up, the iView feature is completely automated.

More Insight into Your Complex Electrical Design for Characterization and Compliance Testing

The DPO7000 Series oscilloscopes offer the industry’s most comprehensive set of analysis and compliance tools, such as a simple math expression, waveform mask testing, a pass/fail compliance test, event searching, event marking, or a custom application that you develop yourself.

A Wide Range of Built-in Advanced Waveform Analysis Tools

Waveform cursors make it easy to measure trace-to-trace timing characteristics, while cursors that link between YT and XY display modes make it easy to investigate phase relationships and Safe Operating Area violations. Select from 53 automatic measurements using a graphical palette that logically organizes measurements into Amplitude, Time, Combination, Histogram, and Communications categories. Gather further insight into your measurement results with statistical data such as mean, min, max, standard deviation, and population.

Define and apply math expressions to waveform data for on-screen results in terms that you can use. Access common waveform math functions with the touch of a button. Or, for advanced applications, create algebraic expressions consisting of live waveforms, reference waveforms, math functions, measurement values, scalars, and user-adjustable variables with an easy-to-use calculator-style editor.

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Basic spectral UI control window.

FFT - To analyze your signal in the spectral domain, use the basic spectral (provides you with the best parameter), or use advanced spectral with the manual time base horizontal mode (to directly control the frequency span, center frequency, and resolution bandwidth).

Filtering - Enhance your ability to isolate or remove some important component of your signal (noise or specific harmonics of the signal) by creating your own filters, or using the filters provided as standard with the instrument.

Advanced Analysis, Jitter, Timing, and Eye Diagram Measurements
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Advanced Analysis, Jitter, Timing, and Eye Diagram Measurements

Tight timing margins associated with today’s serial buses demand stable, low-jitter designs. DPO7000 models include an Essentials version of the DPOJET software package that extends the oscilloscope’s measurement capabilities by making measurements over contiguous clock and data cycles in a single-shot real-time acquisition. DPOJET Essentials adds multiple measurements, including Time Interval Error, Phase Noise, Skew, Setup and Hold timing, Duty Cycle, Period, Positive/Negative Width, and others, and provides the ability to measure key jitter and timing parameters to help characterize possible system timing issues. Analysis tools such as plots for time trends and histograms quickly show how timing parameters change over time, like frequency drift, PLL startup transients, or a circuit’s response to power supply changes. Spectrum analysis quickly shows the precise frequency and amplitude of jitter and modulation sources.

Further analysis can be added with DPOJET Advanced (Option DJA) that offers extended capabilities, providing a complete suite of analysis tools for insight into jitter and timing as well as other signal quality issues. To the basic jitter and timing measurements described above, DJA adds advanced tools such as Rj/Dj separation, eye diagram masks, and Pass/Fail limits for conformance testing. DPOJET Advanced is the measurement framework that underlies several other Tektronix standards-specific compliance test packages for applications such as DDR memory and USB.

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Accelerating the research of specific events in an acquired waveform.

Advanced Event Search and Mark - Event Search and Mark will relieve the user from the tedious task of examining data by highlighting important events, skipping the unimportant ones, and enhancing the comprehension of event relationships. You can navigate between the events of interest effortlessly. Basic event (edge only) search and mark plus support for more advanced event types like transition, setup and hold, or logic pattern are available.

Waveform Limit Testing - This feature consists of comparing an acquired waveform to boundaries. These boundaries are defined by the user to specify a tolerance band around a reference waveform. If any part of the acquired waveform falls outside of the limit, the software returns a failure message and the location of the failure is shown on the waveform.

Communications Mask Testing (Opt. MTM) - This feature provides a complete portfolio of masks for verifying compliance to serial communications standards. It supports 156 Standard Masks:

  • ITU-T (64 Kb/s to 155 Mb/s)
  • ANSI T1.102 (1.544 Mb/s to 155 Mb/s)
  • Ethernet IEEE 902.3, ANSI X3.263 (125 Mb/s to 1.25 Gb/s)
  • Sonet/SDH (51.84 Mb/s to 622 Mb/s)
  • Fibre Channel (133 Mb/s to 2.125 Gb/s)
  • USB (12 Mb/s to 480 Mb/s)
  • IEEE 1394 (491.5 Mb/s to 1.966 Gb/s)
  • RapidI/O (up to 2 Gb/s)
  • OIF Standards (1.244 Gb/s)
  • Video (143.18 Mb/s to 1.485 Gb/s)
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CAN and LIN Timing and Protocol Decode

CAN and LIN Timing and Protocol Decode Software (Opt. LSA) - When you need to ensure seamless and reliable operation of a CAN or LIN network, this option enables CAN bus triggering and provides the solution to measure oscillator tolerance, propagation delay, and simultaneously decode CAN and LIN messages, with the protocol leveraging the trigger capabilities.

The optional ATM-1 module adds LIN and advanced CAN triggering.

 

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Power Measurement and Analysis

Power Measurement and Analysis (Opt. PWR) - Analyze power dissipation in power supply switching devices and magnetic components, and generate detailed reports in customizable formats. The Hi-Res acquisition mode delivers greater than 8 bits of vertical resolution on single-shot or repetitive signals at bandwidth up to 125 MHz. The powerful and flexible measurements, math, and math-on-math capabilities make it an ideal solution for performing power measurements, such as voltage, current, instantaneous power, and energy, for power device designers. The TekVPI™ interface provides smart communication between the oscilloscope and the probe. TekVPI probe interface also provides more power to the probe interface, allowing direct connection of current probes to the front of the oscilloscope.

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Ethernet Compliance Testing

Ethernet Compliance Testing (Opt. ET3) - Receive full physical layer support for Ethernet variants 10BASE-T, 100BASE-TX, and 1000BASE-T with the comprehensive, integrated Tektronix Ethernet tool set. Analog verification, automated compliance software, and device characterization solutions are all included.

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USB Compliance Testing

USB Compliance Testing (Opt. USB) - Provides compliance testing for USB 2.0 signals. A DPO7254 or DPO7354 is required for compliance testing of high-speed (480 Mb/s) USB signals.

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DDR Memory Bus Analysis

DDR Memory Bus Analysis (Opt. DDRA) - Automatically identify DDR1, LP-DDR1 DDR2, DDR3, and GDDR3 Reads and Writes and make JEDEC conformance measurements with pass/fail results on all edges in every Read and Write burst. DDRA also provides capabilities for measurements of clock, address, and control signals. In addition to enabling conformance testing, DDRA with DPOJET is the fastest way to debug complex memory signaling issues.

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Optional MIPI® D-PHY Characterization and Compliance Testing

MIPI® D-PHY Characterization and Compliance Testing (Opt. D-PHY) - Verify to the D-PHY specification, rapidly characterize and discover sources of jitter and signal integrity concerns. Perform high-speed data-clock timing measurements, along with other electrical characteristics in high-speed or low-power modes. This option is available on the DPO7254 and DPO7354 models.

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UWB WiMedia Analysis and Measurements

Ultra-Wideband Spectral Analysis (Opt. UWB) and Ultra-Wideband Spectral Analysis Essentials (Opt. UWBE) - UWBE: Ultra-Wideband microwave, optical, and electrical signals require more real-time bandwidth than is possible with spectrum analyzer based solutions. Spectral Analysis and Digital Down Conversion of RF data is fast and easy and the down-converted frequency span of interest may be exported for further analysis in tools such as RSAVu and MATLAB.

UWB goes beyond the Essentials version and adds: WiMedia PHY 1.2 analysis with automatic packet, TFC, and data rate detection, support for all band groups, and Time Frequency Codes and data rates. Rapid visualization, debug, and report generation of the Spectrograms, Power Spectral Density, QPSK/DCM Constellations, EVM-vs-Symbol, EVM-vs-Subcarrier, Common-Phase-Error-vs-Symbol, and Voltage-vs-Time plots and complete measurements are captured and documented for each test condition.

 

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SignalVu™ enables detailed analysis in multiple domains.

SignalVu™ Vector Signal Analysis (Opt. SVE, SVP, SVM) - Easily validate wideband designs and characterize wideband spectral events. By combining the signal analysis engine of the RSA6100A Real-Time Spectrum Analyzer with that of the industry’s widest-bandwidth digital oscilloscopes, you can now evaluate complex signals up to 20 GHz without the need of an external down converter. You get the functionality of a vector signal analyzer, a spectrum analyzer, and the powerful trigger capabilities of a digital oscilloscope – all in a single package. Whether your design validation needs include wideband radar, high data-rate satellite links, or frequency-hopping communications, SignalVu™ vector signal analysis software can speed your time-to-insight by showing you time-variant behavior of these wideband signals.

Floating Licenses

Floating licenses offer an alternative method to manage your Tektronix asset. Floating licenses allow license-key enabled options to be easily moved among all your DPO/DSA70000B, MSO70000, and DPO7000 Tektronix oscilloscopes. Floating licenses are available for many license-key enabled options. To order a floating version of an option license add “DPOFL-“ prefix to the option name. (e.g. DPOFL-ET3)

Check www.tek.com/products/oscilloscopes/floatinglicenses for additional information about floating license options.

Characteristics

Vertical System

Characteristic

DPO7054

DPO7104

DPO7254

DPO7354

Input Channels

4

Bandwidth

(DSP Bandwidth Enhance)

500 MHz

1 GHz

2.5 GHz

3.5 GHz*1

Rise Time

(DSP Bandwidth Enhance)

460 ps

300 ps

160 ps

115 ps

Hardware Analog Bandwidth (–3 dB)

500 MHz

1 GHz

2.5 GHz

2.5 GHz

Rise Time 10% to 90% (Typical)

460 ps

300 ps

160 ps

145 ps

Rise Time 20% to 80% (Typical)

310 ps

200 ps

100 ps

95 ps

DC Gain Accuracy

±1% with offset/position set to 0

Bandwidth Limits

Depending on instrument model: 3.0 GHz, 2.5 GHz, 2 GHz, 1 GHz, 500 MHz, 250 MHz, and 20 MHz

Input Coupling

AC, DC, GND

Input Impedance (Software selectable)

1 MΩ ±1% with 13 pF ±2 pF or

50 Ω ±1%

Input Sensitivity

1 MΩ: 1 mV/div to 10 V/div

50 Ω: 1 mV/div to 1 V/div

Vertical Resolution

8 bit (>11 bit with Hi Res)

Max Input Voltage, 1 MΩ

±150 V CAT I, derate at 20 dB/decade to 9 VRMS above 200 kHz

Max Input Voltage, 50 Ω

5 VRMS, with peaks less than ±24 V

Position Range

±5 divisions

Offset Range

1 mV/div to 50 mV/div: ±1 V

50.5 mV/div to 99.5 mV/div: ±(1.5 V – 10 divisions)

100 mV/div to 500 mV/div: ±10 V

505 mV/div to 995 mV/div: ±(15 V – 10 divisions)

1 V/div to 5 V/div: ±100 V

5.05 V/div to 10 V/div: ±(150 V – 10 divisions)

Offset Accuracy

1 mV/div to 9.95 mV/div: ±0.2% (offset value-position) ±0.1 div ±1.5 mV

10 mV/div to 99.5 mV/div: ±0.35% (offset value-position) ±0.1 div ±1.5 mV

100 mV/div to 1 V/div: ±0.35% (offset value-position) ±0.1 div ±15 mV

1.01 V/div to 10 V/div: ±0.25% (offset value-position) ±0.1 div ±150 mV

Delay between any Two Channels (Typical)

≤100 ps (50 Ω, DC coupling and equal V/div at or above 10 mV/div)

Channel-to-Channel Isolation (Any two channels at equal Vertical Scale settings) (Typical)

≥100:1 at ≤100 MHz;

≥30:1 between 100 MHz and 2.5 GHz

> 20:1 between 2.5 and 3.5 GHz

*1 3 GHz for sine wave of more than 4 div amplitude (typically).

Time Base System

Characteristic

DPO7054

DPO7104

DPO7254 / DPO7354

Time Base Range

50 ps/div to 1000 s/div

50 ps/div to 1000 s/div

25 ps/div to 1000 s/div

   with Opt. 2SR

25 ps/div to 1000 s/div

Time Resolution (in ET/IT mode)

500 fs

500 fs

250 fs

   with Opt. 2SR

250 fs

Time Base Delay Time Range

5 ns to 250 s

Channel-to-Channel Deskew

Range ±75 ns

Delta Time Measurement Accuracy

((0.06 / sample rate) + (2.5 ppm × Reading)) RMS

Trigger Jitter (RMS)

1.5 psRMS (typical) with enhanced triggering OFF

<100 fsRMS with enhanced triggering ON

Jitter Noise Floor

<1 psRMS (<2 ps peak) for record duration <10 μs (typical)

<2.5 psRMS for record duration <30 ms

<65 parts/trillion for record durations <10 s

Time Base Accuracy

±2.5 ppm + Aging <1 ppm per year

Acquisition System

Characteristic

DPO7054

DPO7104

DPO7254 / DPO7354

Real-time Sample Rates

1 Channel (Max)

20 GS/s

20 GS/s

40 GS/s

   with Opt. 2SR

40 GS/s

2 Channels (Max)

10 GS/s

10 GS/s

20 GS/s

   with Opt. 2SR

20 GS/s

3-4 Channels (Max)

5 GS/s

5 GS/s

10 GS/s

   with Opt. 2SR

10 GS/s

Equivalent Time Sample Rate (Max)

4 TS/s (for repetitive signals)

Maximum Record Length per Channel

Standard Configuration

50 M (1-CH), 25 M (2-CH), 12.5 M (4-CH)

Record Length Opt. 2RL

125 M (1-CH), 50 M (2-CH), 25 M (4-CH)

Record Length Opt. 5RL

250 M (1-CH), 125 M (2-CH), 50 M (4-CH)

Record Length Opt. 10RL

500 M (1-CH)

250 M (2-CH)

125 M (4-CH)

Maximum Duration at Highest Real-time Resolution (1-CH)

Characteristic

DPO7054

DPO7104

DPO7254 / DPO7354

Resolution

50 ps (20 GS/s)

50 ps (20 GS/s)

25 ps (40 GS/s)

   with Opt. 2SR

25 ps (40 GS/s)

Max Duration with Standard Record Length and Sample Rate

2 ms

2 ms

1 ms

   with Opt. 2SR

1 ms

Max Duration with Opt. 2RL

4 ms

4 ms

2 ms

   with Opt. 2SR

2 ms

Max Duration with Opt. 5RL

10 ms

10 ms

5 ms

   with Opt. 2SR

5 ms

Max Duration with Opt. 10RL

10 ms

Acquisition Modes

Mode

DPO7054 / DPO7104 / DPO7254 / DPO7354

FastAcq Acquisition Mode

FastAcq optimizes the instrument for analysis of dynamic signals and capture of infrequent events

Maximum FastAcq Waveform Capture Rate

>250,000 wfms/s on all 4 channels simultaneously

Waveform Database

Accumulate waveform database providing three-dimensional array of amplitude, time, and counts

Sample

Acquire sampled values

Peak Detect

Captures narrow glitches at all real-time sampling rates: 1/sample rate at ≤10 GS/s

Averaging

From 2 to 10,000 waveforms included in average

Envelope

From 1 to 2×109 waveforms included in min-max envelope

Hi-Res

Real-time boxcar averaging reduces random noise and increases resolution

FastFrame™ Acquisition

Acquisition memory divided into segments; maximum trigger rate >310,000 waveforms per second. Time of arrival recorded with each event. Frame finder tool helps to visually identify transients

Roll Mode

Scrolls sequential waveform points across the display in a right-to-left rolling motion. Up to 10 MS/s with a maximum record length of 40 M

Pinpoint® Trigger System

Characteristic

DPO7054 / DPO7104 / DPO7254 / DPO7354

Sensitivity

Internal DC Coupled

0.7 div DC to 50 MHz increasing to 1.2 div at rated analog bandwidth (typical); 2.5 div at 3.5 GHz with DSP bandwidth enhance

External (Auxiliary Input) 1 MΩ

250 mV from DC to 50 MHz increasing to 350 mV at 250 MHz (typical)

Trigger Characteristics

A Event and Delayed B Event Trigger Types

Edge, Glitch, Runt, Width, Transition Time, Time-out, Pattern, State, Setup/Hold, Window – all except Edge, Pattern, and State can be Logic State qualified by up to two channels

Low-speed Serial Protocol Trigger Type (A event only)

I2C, SPI, and RS-232 (standard). CAN bus available as Opt. LSA.

Trigger on address, data, and special handshaking states and other conditions

Main Trigger Modes

Auto, Normal, and Single

Enhanced Triggering

User-selectable; it corrects the difference in timing between the trigger path and the acquired data path (it supports all Pinpoint trigger types on both A and B events except pattern trigger and not available in FastAcq)

Trigger Sequences

Main, Delayed by Time, Delayed by Events, Reset by Time, Reset by State, Reset by Transition. All sequences can include separate horizontal delay after the trigger event to position the acquisition window in time

Communications-related Triggers

Requires Opt. MTM.

Support for AMI, HDB3, BnZS, CMI, MLT3, and NRZ encoded communications signals. Select among isolated positive or negative one, zero pulse form, or eye patterns as applicable to the standard

Serial Pattern Trigger

On DPO7254 or DPO7354 only, and requires Opt. PTM.

Up to 64 bit serial word recognizer, bits specified in binary (high, low, don't care) or hex format. Trigger on NRZ-encoded data up to 1.25 Gb/s

Video-type Trigger Formats and Field Rates

Triggers from negative sync composite video, field 1, or field 2 for interlaced systems, any field, specific line, or any line for interlaced or noninterlaced systems. Supported systems include NTSC, PAL, SECAM, and HDTV 1080/24sF, 1080p/25, 1080i/50, 1080i/60, 1080p/24, 720p/60, 480p/60

Clock Recovery System

On DPO7254 or DPO7354 only and requires Opt. PTM or MTM

Clock Recovery Phase Locked Loop Bandwidth

Fixed at FBaud/500

Frequency Range

1.5 MBaud to 1.25 GBaud

Clock Recovery Jitter (RMS)

20 psRMS + 1.25% Unit Interval RMS for PRBS data patterns.

20 psRMS + 1.25% Unit Interval RMS for repeating "0011” data pattern.

Tracking/Acquisition Range

±5% of requested baud (typical)

Minimum Signal Amplitude Needed for Clock Recovery

1 divp-p up to 1.25 GBaud (typical)

Trigger Level Range Internal

±12 divisions from center of screen

Aux Trigger

TekVPI interface; ±5 V (50 Ω); 150 V CAT I, derate at 20 dB/decade to 9 VRMS above 200 kHz (1 MΩ)

Line

Fixed at 0 V trigger level

Trigger Coupling

DC, AC (attenuates <60 Hz), HF Rej (attenuates >30 kHz), LF Rej (attenuates <80 kHz), Noise Reject (reduces sensitivity)

Trigger Holdoff Range

250 ns min to 12 s max

Trigger Modes

Mode

Description

Edge

Positive or negative slope on any channel or front-panel auxiliary input. Coupling includes DC, AC, noise reject, HF reject, and LF reject

Glitch

Trigger on or reject glitches of positive, negative, or either polarity. Minimum glitch width is down to 170 ps (typical) with rearm time of 250 ps (for DPO7254 or DPO7354)

Width

Trigger on width of positive or negative pulse either within or out of selectable time limits (down to 225 ps)

Runt

Trigger on a pulse that crosses one threshold but fails to cross a second threshold before crossing the first again. Event can be time or logic qualified

Time-out

Trigger on an event which remains high, low, or either, for a specified time period. Selectable from 300 ps

Transition

Trigger on pulse edge rates that are faster or slower than specified. Slope may be positive, negative, or either

Setup/Hold

Trigger on violations of both setup time and hold time between clock and data present on any two input channels

Pattern

Trigger when pattern goes false or stays true for specified period of time. Pattern (AND, OR, NAND, NOR) specified for four input channels defined as high, low, or don't care

State

Any logical pattern of channels (1, 2, 3) clocked by edge on channel 4. Trigger on rising or falling clock edge

Window

Trigger on an event that enters or exits a window defined by two user-adjustable thresholds. Event can be time or logic qualified

Trigger Delay by Time

5 ns to 250 s

Trigger Delay by Events

1 to 10,000,000 events

Comm

Provided as part of Opt. MTM. Support for AMI, HDB3, BnZS, CMI, MLT3, and NRZ encoded signals

I2C, SPI, and RS-232

Protocol trigger on DPO7054, DPO7154, DPO7254, or DPO7354

CAN

Basic protocol trigger on DPO7054, DPO7154, DPO7254, or DPO7354 as part of Opt. LSA. Optional ATM-1 module adds LIN and advanced CAN triggering

Serial Pattern

(Option PTM)

Captures serial data stream with built-in clock recovery for NRZ standards up to 1.25 Gb/s. Extended with pattern lock triggering to capture repeated acquisitions of long serial test patterns

Search and Mark Events

Event

Description

Basic

Mark any events and document waveforms. Search positive, negative slopes or both on any channels. Event table summarizes all found events. All events are time stamped in reference to trigger position. Users can choose to stop acquisitions when an event is found

Advanced

Search glitches or runts, as well as transition rate, pulse width, setup and hold, time-out, window violations, or find any logic or state pattern on any number of channels. Search DDR Read or Write bursts with Opt. DDRA

Waveform Measurements

Measurement

Description

Automatic Measurements

53, of which 8 can be displayed on-screen at any one time; measurement statistics, user-definable reference levels, measurement within gates isolating the specific occurrence within an acquisition to take measurements on

Amplitude Related

Amplitude, High, Low, Maximum, Minimum, Peak-to-Peak, Mean, Cycle Mean, RMS, Cycle RMS, Positive Overshoot, Negative Overshoot

Time Related

Rise Time, Fall Time, Positive Width, Negative Width, Positive Duty Cycle, Negative Duty Cycle, Period, Frequency, Delay

Combination

Area, Cycle Area, Phase, Burst Width

Histogram Related

Waveform Count, Hits in Box, Peak Hits, Median, Maximum, Minimum, Peak-to-Peak, Mean (μ), Standard Deviation (sigma), μ+1sigma, μ+2sigma, μ+3sigma

Eye-pattern Related

Extinction Ratio (absolute, %, dB), Eye Height, Eye Width, Eye Top, Eye Base, Crossing %, Jitter (p-p, RMS, 6sigma), Noise (p-p, RMS), Signal/Noise Ratio, Cycle Distortion, Q-Factor

Waveform Processing/Math

Characteristic

Description

Arithmetic

Add, Subtract, Multiply, Divide Waveforms and Scalars

Algebraic Expressions

Define extensive algebraic expressions including Waveforms, Scalars, User-adjustable Variables, and Results of Parametric Measurements

e.g. (Integral (CH1 – Mean(CH1)) × 1.414 × VAR1)

Math Functions

Average, Invert, Integrate, Differentiate, Square Root, Exponential, Log10, Log e, Abs, Ceiling, Floor, Min, Max, Sin, Cos, Tan, ASin, ACos, ATan, Sinh, Cosh, Tanh

Math Waveforms

4

Relational

Boolean result of comparison >, <, ≥, ≤, ==, !=

Frequency Domain Functions

Spectral Magnitude and Phase, Real and Imaginary Spectra

Vertical Units

Magnitude: Linear, dB, dBm

Phase: Degrees, radians, group delay

IRE and mV units

Window Functions

Rectangular, Hamming, Hanning, Kaiser-Bessel, Blackman-Harris, Gaussian, Flattop2, Tek Exponential

Waveform Definition

As an arbitrary math expression

Filtering Functions

User-definable filters. Users specify a filter containing the coefficients of the filter. Filter files provided

Mask Function

A function that generates a Waveform Database pixmap from a sample waveform. Sample count can be defined

Display Characteristics

Characteristic

Description

Display Type

Liquid-crystal active-matrix color display

Display Size

Diagonal: 307.3 mm (12.1 in.)

Display Resolution

XGA 1240 horizontal × 768 vertical pixels

Waveform Styles

Vectors, Dots, Variable Persistence, Infinite Persistence

Color Palettes

Normal, Green, Gray, Temperature, Spectral, and User Defined

Display Format

YT, XY

Computer System and Peripherals

Characteristic

Description

Operating System

Windows XP

CPU

Intel Pentium 4, 3.4 GHz processor

PC System Memory

2 GB

Hard Disk Drive

Rear-panel, removable hard disk drive, 80 GB capacity

CD/DVD Drive

Front-panel CD-R/W, DVD-R drive

Mouse

Optical wheel mouse, USB interface

Input/Output Ports

Port

Description

Front Panel

Probe Compensator Output

Front-panel pins. Amplitude 1 V ±20% into a ≥50 Ω load; 500 mV from base to top into a 50 Ω load, frequency 1 kHz ±5%

Recovered Clock (for DPO7254 or DPO7354 only)

BNC connector, ≤1.25 Gb/s, Output swing ≥130 mVp-p into 50 Ω. Requires Option MTM to enable

Recovered Data (for DPO7254 or DPO7354 only)

BNC connector, ≤1.25 Gb/s, Output swing 200 mV into 50 Ω. Requires Option MTM to enable

USB 2.0 Port

One USB 2.0 host connector

Aux Trigger Input

See trigger specification

Side Panel

Parallel Port

IEEE 1284, DB-25 connector

Audio Ports

Miniature phone jacks

Keyboard Port

PS-2 compatible

Mouse Port

PS-2 compatible

USB Ports

Four USB 2.0 host connectors

LAN Port

RJ-45 connector, supports 10BASE-T, 100BASE-T, and Gigabit Ethernet

Serial Port

DB-9 COM1 port

VGA Video Port

DB-15 female connector; connect a second monitor to use dual-monitor display mode. Supports basic requirements of PC99 specifications

Oscilloscope VGA Video Port

DB-15 female connector, 31.6 kHz sync, EIA RS-343A compliant, connect to show the oscilloscope display, including live waveforms on an external monitor or projector

Rear Panel

Power

100 to 240 VRMS ±10%, 47 to 63 Hz, <550 W

115 VRMS ±10%, 360 to 440 Hz

CAT I, <500 VA

Analog Signal Output

BNC connector provides a buffered version of the signal that is attached to the CH3 input

   Amplitude

50 mV/div ±20% into a 1 MΩ load, 25 mV/div ±20% into a 50 Ω load

   Bandwidth

100 MHz into a 50 Ω load

External Time Base Reference In

BNC connector, time base system can phase lock to external 10 MHz reference

Aux Out (Software switchable)

   Time base reference out

BNC connector, provides TTL-compatible output of internal 10 MHz reference oscillator

   Trigger output

BNC connector provides a TTL-compatible, polarity switchable pulse when the oscilloscope triggers

GPIB Port

IEEE 488.2 standard

Physical Characteristics

Benchtop Configuration

Dimension

mm

in.

Height

292

11.48

Width

451

17.75

Depth

265

10.44

Weight

kg

lb.

Net

15

32

Shipping

28.9

63.75

Rackmount Configuration

Dimension

mm

in.

Height

331

12.25

Width

479

18.85

Depth (from rackmounting ear to back of instrument)

231.75

9.12

Weight

kg

lb.

Net

17.4

37.5

Rackmount Kit

2.5

5.5

Mechanical

Cooling – Required Clearance

Dimension

mm

in.

Top

0

0

Bottom

0

0

Left Side

76

3

Right Side

0

0

Front

0

0

Rear

0

0

Environmental

Characteristic

Description

Temperature

Operating

0 °C to +50 °C, excluding CD-R/W drive; +10 °C to +45 °C, including CD-R/W drive

Nonoperating

–40 °C to +71 °C

Humidity

Operating

5% to 95% relative humidity (RH) with a maximum wet bulb temperature of +29 °C at or below +50 °C, noncondensing. Upper limit derated to 45% RH above +30 °C up to +50 °C

Nonoperating

5% to 95% relative humidity (RH) with a maximum wet bulb temperature of +29 °C at or below +60 °C, noncondensing. Upper limit derated to 45% RH above +30 °C up to +50 °C

Altitude

Operating

10,000 ft. (3,048 m)

Nonoperating

40,000 ft. (12,190 m)

Random Vibration

Operating

0.000125 G2/Hz from 5 to 350 Hz, –3 dB/octave from 350 to 500 Hz, 0.0000876 G2/Hz at 500 Hz. Overall level of 0.27 GRMS

Nonoperating

0.0175 G2/Hz from 5 to 100 Hz, –3 dB/octave from 100 to 200 Hz, 0.00875 G2/Hz from 200 to 350 Hz, –3 dB/octave from 350 to 500 Hz, 0.006132 G2/Hz at 500 Hz. Overall level of 2.28 GRMS

Regulatory

Electromagnetic Compatibility

93/68/EEC; EN61326:1997 +A1 1998+A2:2000

Certifications

UL 3111-1, CSA1010.1, ISO11469, EN61010-1, IEC 61010-1

Last Modified: 2010-12-07 04:00:00
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