DPO70000SX Series Datasheet

Scalable Performance Oscilloscopes

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DPO70000SX provides ultra-high bandwidth real time signal acquisition and analysis up to 70 GHz analog bandwidth. The patented Asynchronous Time Interleaving (ATI) architecture provides the lowest noise and highest fidelity for real time signal acquisition.

  • Superior signal fidelity and excellent signal-to-noise ratio
  • Stable and precise multi-channel timing for most accurate analysis
  • Compact instrument package with flexibility for future expansion and simple reconfiguration
Introduction

DPO70000SX Series oscilloscopes provide the most accurate real time performance for ultra-bandwidth applications.

  • Low noise, 70 GHz real time signal capture using patented ATI architecture

  • Compact 5 ¼" (3U) instrument package for the most versatile multi-channel systems

  • Precise, scalable performance using UltraSync multi-unit time synchronization bus

  • Highest trigger performance with >25 GHz Edge trigger bandwidth, unique Envelope trigger

  • 14.1 Gbps hardware serial trigger - Assures triggering on the first instance of a specified 8b10b pattern to allow isolation of pattern-dependent effects
  • Bit error detector - Implemented within the trigger system, this feature provides simple bit error measurement against a defined pattern file, with no missed bits

Low noise, high fidelity signal acquisition is critical in ultra-bandwidth applications such as long-haul coherent optical, 400G datacom and wideband RF. The flagship DPO77002SX model uses ATI (Asynchronous Time Interleaving) architecture to achieve 70 GHz and 200 GS/s (5 ps/Sample) real time acquisition performance. This patented, symmetric architecture elegantly creates an inherent noise advantage over legacy bandwidth interleaving methods. The DPO70000SX provides the lowest noise, highest fidelity and maximum performance for complex optical modulation analysis, jitter and noise analysis of high speed serial signaling and frequency, phase and modulation analysis of wideband RF signals.


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ATI architecture delivers lowest noise

Previous real time scope solutions for digitizing ultra-high bandwidth signals distribute signal energy to two digitizing paths, and then use DSP to reconstruct the input signal. Unlike legacy schemes, Tektronix' unique ATI architecture provides a symmetric technique that delivers all signal energy to both digitizing paths resulting in an inherent noise advantage.

The diagram shows how an input signal enters the ATI ASIC where it is sampled and alternately delivered to each digitizing subsystem. The sample clock runs at 75 GHz and effectively folds the spectrum of the input signal about 37.5 GHz prior to digitizing. Each digitizing path operates at 100 GS/s and the folded spectrum is band limited to <40 GHz to meet Nyquist criteria. The alternating phase of the sampler has the effect of inverting signal phase 180° in one digitizing path, which provides significant benefit in reconstructing the final digitized signal.

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With two copies of the entire signal energy digitized, the signal spectra are "unfolded" using a DSP equivalent of the sampling process and combined to reproduce the input signal. Because two copies of the signal are being combined the process effectively averages them together, reducing random noise. Phase-inversion introduced by the sampling process causes intermediate frequency components to directly cancel one another, simplifying reconstruction and calibration.

Thus, ATI architecture provides an inherent SNR advantage over legacy digital-bandwidth interleaving techniques. These techniques immediately split an input signal into upper and lower bands of frequencies. This divides the power and the upper frequency band must be mixed down prior to digitizing while the lower band is directly digitized. This asymmetric approach can make signal reconstruction and calibration more difficult and lead to errors in pass-band frequency or phase response. The division of power removes the opportunity to reduce signal noise. ATI alleviates these issues by using a unique symmetric architecture.

A comparison of baseline noise between the Tektronix DPO77002SX and another vendor's 63 GHz model, with both instruments set to 60 GHz bandwidth, demonstrates the effectiveness of ATI at providing the lowest noise acquisition.


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DPO77002SX vs. other vendor's 63 GHz model: Baseline noise % of FS vs. mVFSsetting, with trace centered, at 60 GHz BW, maximum sample rate setting (200 GS/s or 160 GS/s)

JNF performance

An all-new master sample clock design which provides the remarkably low sample clock jitter of 65fsRMS, combined with the very low noise performance achieved with ATI, allows the DPO77002SX to reach new levels of jitter noise floor performance. The JNF at 300 mVFSis a mere 123 fsRMS, which even rivals lower bandwidth instruments.

The figure shows jitter analysis of 60 GHz sine wave applied to the ATI input. The result shows a clean eye with random jitter RJ <80 fsRMS.

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Compact ultra-performance oscilloscope

DPO70000SX Series models establish a unique compact oscilloscope package that enables unprecedented workspace efficiency and mounting versatility. The SX series provides a differentiated approach to ultra-bandwidth real time acquisition that aligns with user trends toward large external monitors, higher degrees of automation and increased separation of data collection and data analysis workspaces.

Stand-alone DPO70000SX compact models provide functionality equivalent to their bench counterparts (DPO70000DX) at half the height through addition of external display, keyboard and mouse. SX series models can host Advanced Analysis software and be automated using internal or external control just as their bench counterparts.

The DPO77002SX 70 GHz ATI Performance Oscilloscope provides one channel at 70 GHz, 200 GS/s acquisition performance or two channels at 33 GHz, 100 GS/s acquisition. The instrument includes a 70 GHz, 1.85 mm low-noise ATI input channel as well as general purpose TekConnect 2.92 mm inputs for versatile probing and signal conditioning options to 33 GHz.


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The DPO73304SX model provides two channels at 33 GHz, 100 GS/s acquisition or four channels at 23 GHz, 50 GS/s real time acquisition performance. This model provides acquisition performance similar to the DPO73304DX bench model, but in the new compact instrument form-factor.

All models in the DPO70000SX Series achieve the highest level of trigger performance available in real time oscilloscopes, >25 GHz edge trigger performance and <40 ps glitch trigger performance. An innovative new Window trigger type enables triggering on the envelope of RF signal bursts with time-qualification to discriminate envelope width. Industry-leading pulse-width timer performance enables the most precise discrimination of specific bit-widths in high speed serial data streams and detection of "runt" pulses in the midst of pseudo-random signaling. The DPO70000SX Series Auxiliary Trigger input provides low-jitter edge triggering and uses TekConnect accessories for a wide variety of signal conditioning solutions.

Optimal usability

Less than half the height of bench models

DPO70000SX Series instruments are contained in a 5 ¼" (3U) package that optimizes space usage and enables the most versatile range of mounting configurations. Two DPO70000SX instruments stack in less height than similar-class bench instruments, yet achieve higher measurement performance.

Complete standalone oscilloscope

Though compact, SX models provide full standalone oscilloscope functionality and performance. They can directly host Tektronix' Advanced Analysis applications for tasks such as jitter, noise, optical modulation or spectral analysis and do not require a separate processor or control unit.

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2 x 70 GHz, 4 x 33 GHz configuration with monitor and auxiliary front panel

Familiar scope controls where you want them

The DPO7AFP Auxiliary Front Panel is a valuable usability accessory that compliments the compact instrument package by enabling users to operate with familiar controls without requiring access to the front of an instrument.

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The Auxiliary Front Panel provides the same control set embedded in DPO/DSA/MSO/7000/70000 bench instruments as a separately packaged USB peripheral. This accessory enhances usability even when the instrument front panel may be obscured due to mounting location.


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Remote desktop operation

As with current bench-model DPO/MSO70000 Series instruments, DPO70000SX models can be operated remotely over a network using Windows® Remote Desktop. Use the Windows Remote Desktop utility to access your oscilloscope from across the lab or across the globe.

Precision synchronization for multi-unit systems

DPO70000SX Series instruments include the Tektronix UltraSync multi-unit time synchronization bus. UltraSync is used to synchronize sample clock, trigger and run-stop control across multiple units with performance equivalent to that found in monolithic scopes. UltraSync cables are available in 1 meter and 2 meter length to maximize configuration and layout versatility while preserving timing integrity of a multi-unit system.


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The UltraSync bus consists of three elements, each providing an important element of precise multi-unit operation:

  • UltraSync includes a 12.5 GHz Sample Clock Reference signal sourced by the Master and used by each Extension to synchronize sample placement in the digitizing process.
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  • The Trigger bus provides Run-Stop control for all members of a multi-unit configuration and enables the trigger source to be from a Master or Extension unit.
  • Control & data transfer from Extension units to the Master are managed with a PCIe, Gen 2, x4 link capable of 2 GB/s data transfer rate.

When operating in a multi-unit instrument configuration, one DPO70000SX has the role of Master, controlling one or more units operating in Extension mode. Any DPO70000SX model can operate as a standalone oscilloscope or serve as Master or Extension in a multi-unit configuration. Roles are determined by UltraSync cabling and no additional elements are needed. This allows users to decouple multi-unit configurations at any time and operate instruments in a standalone fashion without requiring a control unit or other accessories. Or, standalone units can be easily combined by simply adding UltraSync cables between Master and Extension.

During startup of a multi-unit configuration a Configuration Manager application validates Master-Extension cabling and provides graphical feedback if elements are missing or misconfigured. Following validation, the system presents the TekScope user interface where waveforms from Master and Extension units are gathered for display and analysis using built-in features and Advanced Analysis applications.

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Scalable performance and versatile configurations

DPO70000SX multi-unit modes enable a variety of extended performance and increased channel-count configurations. Master-Extension configurations provide additional input channels synchronized to the same degree of precision as internal channels and controlled from a single user interface as an interactive instrument or programming interface in automated applications.

This scalable approach to performance allows users to purchase performance suitable for today's requirements, such as four channels of 33 GHz, 100 GS/s acquisition while also having two channels with 70 GHz, 200 GS/s performance suitable for next-generation designs. Subsequently, two additional units can be added for a total of four channels at 70 GHz, 200 GS/s. Units in this four-unit configuration can be separately deployed as pairs or standalone units at any time to meet other test demands.

The DPO77002SX also offers a unique value proposition in single-channel 70 GHz, 200 GS/s applications such as RF analysis or pulsed laser studies. In these cases a user can purchase a single unit for 70 GHz channel performance along with two channels at 33 GHz. Additional units can be purchased at a later time and combined using UltraSync if higher channel count is needed.

The following multi-unit configurations are supported:

2 DPO77002SX: 2 Ch @ 70 GHz, 200 GS/s or 4 Ch @ 33 GHz, 100 GS/s

4 DPO77002SX: 4 Ch @ 70 GHz, 200 GS/s or 8 Ch1@ 33 GHz, 100 GS/s

2 DPO75902SX: 2 Ch @ 59 GHz, 200 GS/s or 4 Ch @ 33 GHz, 100 GS/s

4 DPO75902SX: 4 Ch @ 59 GHz, 200 GS/s or 8 Ch1@ 33 GHz, 100 GS/s

2 DPO75002SX: 2 Ch @ 50 GHz, 200 GS/s or 4 Ch @ 33 GHz, 100 GS/s

4 DPO75002SX: 4 Ch @ 50 GHz, 200 GS/s or 8 Ch1@ 33 GHz, 100 GS/s

2 DPO73304SX: 4 Ch @ 33 GHz, 100 GS/s or 8 Ch1@ 23 GHz, 50 GS/s

4 DPO73304SX: 8 Ch1@ 33GHz, 100GS/s or 16 Ch1@ 23GHz, 50GS/s

2 DPO72304SX: 4 Ch @ 23 GHz, 100 GS/s or 8 Ch1@ 23 GHz, 50 GS/s

4 DPO72304SX: 8 Ch1@ 23GHz, 100GS/s or 16 Ch1@ 23GHz, 50GS/s

1Maximum of 4 channels displayed on-screen. Access to additional channels data available through program interface.

Skew Stability

UltraSync provides outstanding integration and time alignment between units in a multi-unit stack. Once channels have been deskewed in a multi-unit stack, skew is very stable over time and temperature. The specification for skew stability is ≤250 fsRMS. The following DPO77002SX skew measurement plot shows that even when including the startup temperature stabilization period (approximately 1 hour), the pk-pk variation is about 400 fs, and is about 350 fs pk-pk after the 1-hour warm-up period. This plot also shows exceptional consistency over this 12-hour data collection.


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Change in channel-to-channel skew of DPO77002SX system over time.

Another important aspect of skew is how the phase relationship between two channels varies with changing frequency (group delay effects). The following plot compares the performance of a DPS77004SX 70 GHz two-unit system against the performance of another vendor's 63 GHz frequency-interleaved channels. What you see here is that the UltraSync two-channel skew performance dramatically surpasses the performance of another vendor's single 63 GHz model containing two channels.


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Channel skew vs. Frequency comparison between DPO77002SX system and other vendor's 63 GHz model.

Short signal path

Minimizing input signal path length is especially important when working at 70 GHz ultra-high bandwidth. The compact nature of DPO70000SX creates more versatile mounting options when co-locating instrument and device under test (DUT). Options such as the Auxiliary Front Panel and Remote Desktop connection allow further flexibility by eliminating the need for direct access to the instrument front panel once connected. As a result, the SX series enables the broadest range of options when dealing with a variety of DUT configurations as compared to classic bench instruments.

Input signal path length may be minimized in multi-unit configurations by inverting one unit of a pair. The low, central location of the 70 GHz ATI input provides very small input connector spacing when operating units in this configuration.

Instruments can also be arranged at various angles to suit DUT layout, such as at right angles for card-and-backplane situation or face-to-face around a small DUT. Layouts such as this create the shortest input signal path and maximize SNR. In addition, effects of signal path elements such as cables and adapters can be characterized and removed using the Serial Data Link Analysis application to obtain the best analysis results and insight.

Applications

Enterprise computing

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PCI Express®Transmitter Compliance and Debug (Option PCE3 and PCE4) – Analyze the performance of your PCI Express®Gen 1, 2, 3, or 4 design with comprehensive test support. Using DPOJET, Option PCE3 and PCE4 enable tests that conform to PCI-SIG standards.


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USB 3.0 Transmitter Test Solution (Option USB3) – Perform verification, characterization, and debug of USB 3.0 devices. Measurements are implemented in DPOJET and are compliant to the USB 3.0 specification. For compliance and automation, USB-TX is available.

Datacom measurements
PAM4 and NRZ measurements

The throughput of Datacom networks continues to increase. Tek's DPO70000SX is ready to perform standards validation for today's 25/28 G industry standards and beyond (see chart below). The powerful combination of DPO70000SX, DPOJET Jitter and Noise Analysis, and the SDLA Serial Data Link Analysis tool performs accurate de-embedding and eye diagram analysis for these key Datacom standards. The 50 GHz to 70 GHz models provide ample bandwidth for Bessel-Thomson filter responses.

Datacom standards Recommended bandwidth Tektronix scope model
Ethernet
  10GBASE KRn
  100GBASE KR-4, CR-4 
  25 Gb Phy KR, CR for 100G
  
25 GHz
59 GHz
59 GHz
  
DPO72504DX
DPS75904SX
DPS75904SX
Fibre Channel
  16Gb
  32Gb
  
30 GHz
45 GHz
  
DPS75004SX
DPS75004SX
Infiniband
  EDR 25Gb
  
50 GHz
  
DPS75004SX
OIF-CEI 3.0 
  CEI-25G
  
70 GHz
  
DPS77004SX
OIF-CEI 3.1 
  CEI-56G (PAM4)
  CEI-56G (NRZ)
  
70 GHz
70 GHz
  
DPS77004SX
DPS77004SX

With 400 G networking, serial data transmission speeds are now reaching 56 Gb/s per channel, making NRZ signaling techniques less practical. The bandwidth efficient PAM4 (4-level pulse amplitude modulation) signaling is being widely used to achieve this new performance level. Accurate PAM4 validation is best conducted using the DPO70000SX Series, with its industry-leading low-noise ATI technology, to achieve the best test margin on your measurement results. For analysis of PAM4, the DPO70000SX Option PAM4 combines industry leading equalization tools and a robust built-in software based clock recovery, which is essential to recovering complex timing and performing analysis of high ISI PAM4 signals.


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Option PAM4 offers electrical measurements and option PAM-O offers optical measurements. Both comply with IEEE and OIF specifications. Optical interfacing is provided through the use of the DPO7OE Series optical probes, which include ORR filters.


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IEEE 802.3bj (KR4/CR4) and IEEE 802.3bm (CAUI4) Electrical Real Time Transmitter Compliance and Characterization Solution (option 100G-TXE) - TekExpress 100G-TXE automation provides turnkey testing and debug of 100G Ethernet's three most common electrical interfaces. Tools for 100G- KR4/CR4/CAUI4 are brought together in a single 100G-TXE option to support silicon designers and system designers as they perform KR4 and CR4 validation.


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Bit error detection

The bit error detector (option BITERR) is a generic simple NRZ bit error detector for serial data testing, covering data rates between 600 Mbps and 14.1 Gbps. It detects bit errors on a repeating pattern being sent by a serial transmitter. This feature utilizes the trigger system hardware, rather than waveform acquisition, so every bit is detected and verified; there are no blind periods or missed bits during bit error analysis. A pattern match file is used to define the expected incoming pattern. PRBS patterns are predefined, but users can also create their own unique pattern match files. Note that this optional feature is not protocol aware, and does not detect frame/symbol/character errors. When a bit error is detected, the oscilloscope triggers a waveform acquisition, resulting in a capture of the waveform containing the bit error. If the oscilloscope also has an optional serial decoder for the serial data stream being tested (for example, 8b10b), the acquired waveform can include decoded data, making analysis and debug of the error easier. Requires option ST14G.


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Bit Error Detector (option BITERR) - Provides statistics on bits counted and number of errors detected, as well as displaying waveform data upon detection of a bit error. As shown here, the Bit Error Detector can be combined with optional serial data decoders to facilitate debug and diagnosis of errors.

Link Training

High Speed Serial Link Training Analysis - option HSSLTA - is a tool for verifying and debugging link training operation on 10 Gb through 100 Gb Ethernet links. It offers a powerful debugging capability for network equipment providers and silicon vendors concerned about interoperability issues in their designs. Link training is a complex sequence of negotiations between transmitter and receiver to determine optimal transceiver settings. HSSLTA uses the power of DPO70000SX triggering to identify link training exchanges between devices, then analyzes and displays the protocol, timing, and PHY signaling associated with link negotiation. This insight allows designers to verify the link training process and to quickly pinpoint problems when links fail to train.

The Most Efficient way to isolate link training issues:

  • Real time capture of PHY-layer signaling provides detailed insight
  • Control channel filtering stores essential conversation and removes redundant copies so only significant elements seen
  • Time-stamped control channel elements provide further insight into link training process
  • Linkage to PHY signaling provides quick navigation for exploring

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Link Training (option HSSLTA) - Offers an interactive Results Table based on FastFrame records. - Fast-Frame Records: Time-aligned Hex and Bit-level decode, Marks (Frame, Control Channel, and Training Data). Results Table: All negotiation data is captured in Results Table, Click row to view waveform, Scroll through table rows, Verify Negotiation Requests/Responses, and Export Negotiation Data.

Compliance software

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Ethernet Compliance Test Solution (Option ET3) – Receive full PHY 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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Ethernet Transmitter Test Application (Option XGBT2 and NBASET) - Automates 10GBASE-T, NBASE-T, and IEEE802.3bz (2.5G/5G) physical medium attachment (PMA) and physical-layer (PHY) electrical testing to provide a fast and accurate way of testing your Ethernet designs.


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10GBASE-KR/KR4 Compliance and Debug Solution (Option 10G-KR) - Automated compliance measurements for IEEE 802.3ap-2007 specifications. This option includes an automated compliance solution and debugging with DPOJET. The automated test setup measures transmitter equalization levels generating 12 results for each tap and 120 results for 9 different measurements in approximately 15 minutes.

SFP+/QSFP+ Transmitter Compliance and Debug Solution (Option SFP-TX and SFP-WDP) - Automates compliance testing of devices built using the SFF-8431 & SFF-8634 specifications. Transmitter Waveform Distortion Penalty (TWDPc) measurements for copper are available with Option SFP-WDP.

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Tektronix SFP+ QSFP+ Tx - is developed on a Real Time Oscilloscope platform, which is the platform of choice for engineers designing their products around SFF-8431 & SFF-8634 technology. Option SFP-TX and SFP-WDP enable both an Automation Solution (for Compliance) and DPOJET Option (for Debug), Users can save up to 80% on testing time compared to manual testing. TWDPc - Transmitter Waveform Distortion Penalty for Copper Measurements are available with Option SFP-WDP. SFF-8431 SFP+ TWDPc based Matlab code is integrated into the SFP-WDP option to make sure Engineers can use this measurement in the automated setup.

Coherent optical
Coherent optical modulation analysis

Tektronix DPO70000SX oscilloscopes are ideal for modulation format analysis of 400 Gb/s and Terabit-based coherent optical networking systems. The unique architecture enables scalability to grow instrument performance by adding channels or more bandwidth; test 100 G cost effectively now and expand into 400 G or 1 Terabit later. The DPO70000SX low profile reduces concerns of signal loss in system connectivity on your coherent measurements by placing the Optical Receiver as close as possible to the instrument's input channel.

More accurate modulation analysis starts with a lower Error Vector Magnitude (EVM) floor in the instrument. The DPO70000SX Oscilloscope utilizes ATI technology to provide the industry's lowest noise floor supporting these measurements. In addition, the system is achieving four channels of full 70 GHz Bandwidth at 200 GS/s per channel, providing a very rich analysis environment. When used in conjunction with the OM4524 Optical Modulation Receiver, optical system research engineers can customize their DSP analysis and visualization for non-standard modulation techniques using easy customer-specific implementations with extensive customizable analysis SW that leverages Matlab™.

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  • 70 GHz Bandwidth on 4 Channels for 1 Terabit/s systems
  • Industry-best lowest noise for low EVM
  • 200 GS/s sampling on 4 channels for phase tracking
  • Compact form factor with scalability for channel & bandwidth
  • Customizable DSP for unique analysis needs
Display

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HDMI Compliance Test Solution (Option HT3) – A fast, efficient solution for HDMI compliance measurement challenges, no matter if you are working on a Source, Cable, or Sink solution. This application provides all the HDMI compliance test solutions you need to ensure quality and interoperability.


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DisplayPort Compliance Test Solution (Option DP12) – Supports DisplayPort Compliance Test Standard (CTS) source test with four-line simultaneous testing using the Tektronix®P7300SMA Series probes and DisplayPort software. Detailed test reports with waveform plots, pass/fail results, and margin analysis are included.

Mobile computing

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DDR Memory Bus Analysis (Option DDRA) – Automatically identifies DDR1, LPDDR, LPDDR2, LPDDR3, DDR2, DDR3, DDR4, and GDDR3 Reads and Writes and makes JEDEC conformance measurements with pass/fail results on all edges in every Read and Write burst. DDRA 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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MIPI®D-PHY Characterization and Analysis Solution (Option D-PHY) – Verify to the D-PHY specification by rapidly characterizing and discovering sources of jitter and signal integrity concerns using the fully flexible and customizable test setup. Using DPOJET, Option D-PHY enables transmitter high-speed data-clock timing measurements, along with a full range of electrical characteristics in high-speed or low-power modes.


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MIPI®M-PHY Debug, Analysis, Characterization and Conformance Test Solution (Option M-PHY) – Verify to the M-PHY specification by rapidly characterizing and discovering sources of jitter and signal integrity concerns. Using DPOJET, Option M-PHY enables transmitter signaling and timing measurements such as differential transmit eye diagrams, rise and fall times, slew rate, amplitude parameters, common mode voltages on each lane for both the large and small amplitude configurations, as well as the terminated and unterminated cases.

RF

With its low noise and flat frequency response to 70 GHz, the DPO70000SX opens opportunities for measurement and analysis of wideband RF signals.

SignalVu® vector signal analysis

When vector signal analysis of RF or baseband signals are needed, the optional SignalVu application enables measurements in multiple domains (frequency, time, phase, modulation) simultaneously. SignalVu measurements are fully correlated with the scope's time domain acquisition and triggering. Time domain events, such as commands to an RF subsystem, can be used as trigger events, while the subsystem's RF signal can be seen in the frequency domain.

In addition to spectrum analysis, spectrograms display both frequency and amplitude changes over time. Time-correlated measurements can be made across the frequency, phase, amplitude, and modulation domains. This is ideal for signal analysis that includes frequency hopping, pulse characteristics, modulation switching, settling time, bandwidth changes, and intermittent signals.

SignalVu can process RF, I and Q, and differential I and Q signals from any oscilloscope inputs. Math functions applied by the oscilloscope are also used by SignalVu allowing users to apply custom filtering prior to vector signal analysis.

The Microsoft Windows environment makes the use of this multi-domain analysis even easier with an unlimited number of analysis windows, all time-correlated, to provide deeper insight into signal behavior. With a user interface that adapts to your preferences (keyboard, front panel, touch screen, and mouse), SignalVu is easy to apply for both first-time users and experienced hands.

Time-correlated, multi-domain view provides a new level of insight into design or operational problems not possible with conventional analysis solutions. Here, the hop patterns of a narrowband signal can be observed using Spectrogram (lower left) and its hop characteristics can be precisely measured with Frequency vs Time display (upper left). The time and frequency responses can be observed in the two right-hand views as the signal hops from one frequency to the next.

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Radar and high frequency-based analysis

The low-noise, high bandwidth DPO70000SX Series Oscilloscope is ideal for high frequency FFT-based measurement analysis. When combined with the powerful SignalVu software analysis option, the DPO70000SX instrument provides FFT (fast fourier transform) measurement capability up to 70 GHz. With its scalable instrument architecture, RF engineers can obtain a single channel unit for RF input-only measurements and grow to multi-unit configurations for comprehensive RF system validation.

Examples of high-frequency RF measurements with the DPO70000SX include:

  • Chirp Linearity measurements on Radar signals (see below figure)
  • Wireless measurements on IEEE802.11ad e.g. (60.48 GHz carrier frequency)
  • Monitor & debug satellite communications over K-Band (20-40 GHz)

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Once low-noise waveform data is captured by the 70 GHz DPO70000SX, SignalVu can be used to demodulate the signal, and display a constellation diagram and Error Vector Magnitude (EVM) measurement and other needed measurements. SignalVu also provides detailed analysis in multiple domains as additional options, such as pulse analysis and settling time for Radar systems work, digital modulation analysis and flexible OFDM analysis for emerging modulation standards, as well as AM/FM/PM modulation and audio measurements for lower bandwidth requirements.

  • Industry-low noise enables low EVM floor
  • 70 GHz provides wide dynamic range and accurate chirp linearity
  • Integrated FFT & Phase Plot creation provides fast, accurate frequency domain measurements
Options tailored for your wideband applications

SignalVu vector signal analysis software offers options to meet your specific application, whether it be wideband radar characterization, broadband satellite, or spectrum management. SignalVu Essentials (Opt. SVE) provides the fundamental capability for all measurements and is required for pulse analysis (Opt. SVP), settling time (Opt. SVT), digital modulation analysis (Opt. SVM), flexible OFDM analysis (Opt. SVO), and AM/FM/PM Modulation and Audio Measurements (Opt. SVA). Wideband satellite and point-to-point microwave links can be directly observed with SignalVu analysis software.

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General Purpose Digital Modulation Analysis (Opt. SVM) used to demodulating a 16QAM backhaul link running at 312.5 MS/s.

WiGig IEEE802.11ad transmitter testing

Option SV30 provides WiGig IEEE802.11ad standard transmitter measurements. Used together with the DPO77002SX, it delivers industry's best accurate signal quality measurement at 60 GHz. It allows you to automatically detect the packet start, synchronize to preamble using the Golay codes in the short training field and demodulate preamble, header, and payload separately. These different fields are color coded in the user interface. This option also measures EVM in each of the packet fields per the standard, and decodes the header packet information. In addition RF power, Received Power Indicator, Frequency error, IQ DC origin offset, IQ Gain and Phase imbalance are reported in the Summary display. Pass/Fail results are reported using customizable limits and the presets make the test set-up push-button. Both Control PHY and Single Carrier PHY are supported and the measurements listed above can be done at RF or at IF. For further insight into the signal, you can also visualize the EVM spread across the analyzed packet with color codes differentiating fields and color coded demodulated symbols in tabular form with an option to traverse to the start of each field for easier navigation.


DPO70000SX-Digital-Oscilloscope-Datasheet


DPO770002SX with SV30 provides industry best EVM accuracy, it allows easy setup to perform transmitter measurements including time overview of the bursts, spectrum, constellation diagram, decoded burst information and EVM measurements.

WiGig 802.11ad (Opt. SV30)
Modulation formats Control PHY (DBPSK), Single Carrier PHY (π/2 BPSK, π/2 QPSK, π‌/2 16QAM)
Measurements and displays RF output power, Received Channel Power Indicator (RCPI), Frequency Error, Symbol Rate Error, IQ Origin Offset, IQ Gain Imbalance, IQ Quadrature Error, EVM results for each packet region (STF, CEF, Header and Data). Packet information includes the Packet type, Preamble, Synchronization Word or Access Code, Packet Header, Payload length, and CRC details.
Residual EVM, measured at RF (58 GHz to 65 GHz) on DPO770002SX 1 π/2 BPSK = 1.9%
π/2 QPSK = 2.1%
π/2 16QAM = 2.5%

1Measurement uncertainty: ± 0.3% due to pre-compensation filter

Advanced analysis

A full suite of Advanced Analysis applications are available for insight into specific signal and system behavior. These tools compliment an extensive range of features built into each DPO70000-series instrument to fully characterize performance of a device or system under test.
DPOJET Comprehensive Jitter and Noise Analysis

DPOJET provides engineers the highest measurement sensitivity and accuracy available in real-time instruments. With comprehensive jitter and eye-diagram analysis and decomposition algorithms DPOJET simplifies discovering signal integrity concerns and jitter and their related sources in today's high-speed serial, digital, and communication system designs.

To support measurement on signals acquired with the DPO7OE1 optical probe, DPOJET now also provides optical measurements. These include Extinction Ratio (ER), Optical Modulation Amplitude (OMA), Optical High value, and Optical Low value.

DPO70000SX-Digital-Oscilloscope-Datasheet

DPOJET Jitter and Eye Diagram Analysis - Simplify identifying signal integrity issues, jitter, and their related sources.

Noise analysis with DPOJET (Opt. DJAN)
Option DJAN adds a comprehensive toolset for noise analysis to DPOJET. In the past, users have relied on jitter measurements and visualization alone to understand the behavior of their device under test. The test methodologies defined by many of the standard bodies have largely been concerned with the impact of jitter on horizontal eye closure. As data rates increase, the eye that is being analyzed has become smaller and smaller, making analysis of both vertical and horizontal eye closures a requirement. Understanding both the impact of jitter and noise enables engineers to predict the overall eye opening at a target bit error ratio.
Jitter essentials, advanced analysis and custom extensions

DPOJET Essentials is standard on the DPO70000SX Series with the DPOJET advanced version available as an option. Application-specific measurement packages are also available that extend DPOJET and perform the extensive set of tests required by industry standard groups.

SDLA signal path de-embed and custom filters

Acceleration of signaling speeds and shrinking geometries create several challenges for next generation multi-gigabit designs and test methodologies. Designs are evolving to address these challenges with advanced equalization techniques at the transmitter and receiver. Smaller form factors make signal access more difficult, resulting in non-ideal probing points. This can lead to loss and reflections on the acquired signal due to impedance discontinuities that are not present at the ideal measurement location. The advanced techniques employed by the designs call for advanced measurement solutions. The challenge begins with the signal acquisition; capturing a signal through cables, probes and fixtures distort the signal shape. SDLA Visualizer allows you to de-embed the effects (reflections, insertion loss, and cross coupling) of the measurement circuit (cables, probes, and fixtures) from the waveform while taking into account the transmitter output and receiver input impedance. De-embedding these effects improves the accuracy of measurements and can make the difference between passing or failing a test.

DPO70000SX-Digital-Oscilloscope-Datasheet
Signal path equalization

Using the optional Serial Data Link Analysis Visualizer (SDLA64) application, you can gain further insight into serial data links with the capability to emulate the serial data channel from its S-parameters, remove reflections, cross- coupling, and loss caused by fixtures, cables, or probes, and open closed eyes caused by channel effects using receiver equalization techniques, such as CTLE, DFE, FFE. IBIS-AMI models for silicon-specific receiver equalization can used to observe on-chip behavior.

The eye diagrams below illustrate the correlated eye of a signal before a channel, after a channel, and after equalization. Eye closure due to channel effects have effectively been removed using SDLA and in this case the eye widths are within ~3 ps as shown in the eye diagram on the left and right hand sides.

DPO70000SX-Digital-Oscilloscope-Datasheet

Custom filters

Create your own filters or use the filters provided standard with the DPO70000SX Series to enhance your ability to isolate or remove a component of your signal (noise or specific harmonics of the signal). These customizable FIR filters can be used to implement signal-processing techniques, such as removing signal pre-emphasis or minimizing the effects of fixtures and cables connected to the device under test.

SignalCorrect™ software and TCS70902 Calibration Source

DPO70000SX-Digital-Oscilloscope-Datasheet


SignalCorrect allows quick characterization of cables, fixtures and other types of interconnects using the TCS70902 fast step source and the response captured on a DPO70000SX Series real-time oscilloscope.


DPO70000SX-Digital-Oscilloscope-Datasheet


SignalCorrect creates a filter that you can apply to your oscilloscope inputs to de-embed your device or interconnect under test.

Counter timer

The high resolution counter/timer is a new optional feature that is made possible by the new trigger system in the DPO70000SX series oscilloscopes. This is a precision frequency counter which provides frequency analysis up to 25 GHz, with up to 13 digits of resolution and 12 digits/second. Using the internal clock, this counter is accurate to better than 1 ppm. Higher accuracy is possible using a high precision external clock source. Because this measurement is made through the trigger system, it measures each and every cycle of the signal on a continuous basis during the trigger gate time, rather than making measurements on finite blocks of data through the normal acquisition channel.


DPO70000SX-Digital-Oscilloscope-Datasheet


This feature provides the ability to make highly accurate clock stability measurements. In the screen capture shown, a deviation of 212 μHz of source wander is measured on an 8 GHz precision source. In this figure, the signal generator was set to 8.00000000001 GHz, and the scope measured precisely that amount.

The timer allows precise measurements between trigger events with a 200 fs resolution, and can include time measurements from an A event to a B event, where A and B events can be any valid trigger mode (e.g. Glitch, Runt, Edge, etc). This feature is useful for measuring propagation delays, or analyzing anomaly occurrence rates.

Three important distinctions between this counter/timer and conventional counter/timers are:

  • > 25 GHz analog bandwidth
  • Wide selection of high bandwidth scope probes available for the highest signal fidelity connection to the DUT
  • Ability to view the waveform on-screen to insure the counter/timer is seeing a valid waveform, and that trigger levels are set appropriately for the waveform
Built-in analysis system

DPO70000SX includes a wide variety of built-in features for visualizing and measuring signal behaviors. Select from 54 automatic measurements using a graphical palette that logically organizes measurements into Amplitude, Time, 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.

With deep acquisition memory, margin testing can be done over many cycles and long duration trends in the data can be observed. Plus, data from the oscilloscope can be captured into Microsoft Excel using the unique Excel toolbar, and formatted into custom reports using the Word toolbar provided with the DPO70000SX Series.

Custom math expressions with MATLAB

Tektronix custom math expressions with MATLAB enable users to create MATLAB scripts that process live waveform data and return results into scope math traces. Extensions can also use MATLAB features to create specialized analysis and visualizations.

DPO70000SX-Digital-Oscilloscope-Datasheet

Debugging

Throughout the design cycle, DPO70000SX Series oscilloscopes provide the ability to debug malfunctioning subsystems and isolate the cause. With the high waveform capture rate of FastAcq® you can quickly identify signal anomalies that occur intermittently - saving minutes, hours, or even days by quickly revealing the nature of faults so sophisticated trigger modes can be applied to isolate them. Using Pinpoint® triggers, infrequent events such as glitches or signal runts caused by bus contention or signal integrity issues can be captured, analyzed, and then eliminated.

FastAcq® expedites debugging by clearly showing imperfections

More than just color grading or event scanning, the FastAcq proprietary DPX® acquisition technology captures signals at more than 300,000 waveforms per second on all TekConnect® channels1simultaneously, 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", displaying the complete picture of your circuit's operation. Some oscilloscope vendors claim high waveform capture rates for short bursts of time, but only DPO70000 Series oscilloscopes, enabled by DPX technology, can deliver these fast waveform capture rates on a sustained basis.

1FastAcq not available on ATI channels.

Pinpoint® trigger

Whether you're trying to find a problem signal or need to isolate a section of a complex signal for further analysis, Tektronix Pinpoint triggering provides the solution. Pinpoint triggering allows selection of virtually all trigger types on both A and B trigger events delivering the full suite of advanced trigger types for finding sequential trigger events. Pinpoint triggers provide trigger reset capabilities that begin the trigger sequence again after a specified time, state, or transition so that even events in the most complex signals can be captured.

The DPO70000SX Series provides the highest trigger system performance available in a real time scope. The figure shows triggering on <50 ps bit-wide runt pulses (fails to cross both thresholds within specified time) on 25.78 GBaud (100GbE) signaling. High system bandwidth and extreme trigger timer precision enable reliable capture of signal aberrations and efficient isolation of fault conditions.


DPO70000SX-Digital-Oscilloscope-Datasheet

In the next figure, pulse width discrimination is used to isolate pulses >40 ps and <60 ps wide, showing reliable capture of 50 ps pulses within a 20 Gbps PRBS11 sequence.


DPO70000SX-Digital-Oscilloscope-Datasheet

DPO70000SX includes a unique Envelope trigger mode that enables direct triggering on the envelope of a modulated carrier. Edge, Width and Timeout trigger types can be applied to a detected envelope to provide stable trigger on modulated bursts or discriminate bursts of a specific width. Carrier frequency can range from 500 MHz to 20 GHz to address a broad range of applications. The figure illustrates triggering on burst of specific width.


DPO70000SX-Digital-Oscilloscope-Datasheet

Hardware serial pattern triggering

To verify serial architectures, the serial pattern triggering option for 8b10b NRZ serial data streams with built-in clock recovery provides the ability to correlate events across physical and link layers. The instrument can recover the embedded clock signal, identify transitions, and allow you to set the desired encoded words for a specific serial pattern trigger to be captured. This feature is included with the DSAX option bundle, or can be ordered separately as the ST14G option to the instrument. This 8b10b serial trigger option provides performance from 600 Mbps to 14.1 Gbps, and provides bit level or character level decoding. Any active input channel can be used as a source for the hardware serial trigger.

The 160 bit (16 character) pattern match feature allows the oscilloscope to reliably trigger on a specific section of a serial data sequence, thereby facilitating diagnostic and debug work by isolating portions of the serial data stream.

In addition, the hardware serial trigger feature is designed for reliable operation even in the presence of spread spectrum clocks with a range of 0-5000 pps downspread.


DPO70000SX-Digital-Oscilloscope-Datasheet


Visual trigger

Visual Trigger further extends the Pinpoint Triggering's capabilities, adding another level of trigger qualification to find important events in a wide variety of complex signals. Visual Trigger qualifies Pinpoint triggers by scanning through all waveform acquisitions and comparing them to on-screen areas (geometric shapes). Up to eight areas can be created using a mouse or touchscreen, and a variety of shapes (triangles, rectangles, hexagons, or trapezoids) can be used to specify the desired trigger behavior. Once shapes are created, they can be edited interactively to create ideal trigger conditions


DPO70000SX-Digital-Oscilloscope-Datasheet

FastFrame™

When the key events you are interested in are widely spaced in time, such as bursts of activity on a bus, the FastFrame segmented memory feature on the DPO70000SX Series enables you to capture the events of interest while conserving acquisition memory. Using multiple trigger events, FastFrame captures and stores short bursts of signals and saves them as frames for later viewing and analysis. Capturing thousands of frames is possible, so long-term trends and changes in the bursting signal can be analyzed. FastFrame also minimizes trigger re-arm time, allowing for acquisition of events that are very closely spaced in time. Using this feature, it is possible to reliably acquire signals that are spaced by only a few microseconds.

Extended features that are part of FastFrame include the ability to very efficiently calculate a point-point average of all frames to a single waveform (summary frame). In addition, it is possible to perform an orthogonal average, whereby multiple sets of frames can be acquired. In this mode, each #1 frame is averaged on a point-by-point basis with all other #1 frames, each #2 frame is averaged on a point-by-point basis with all other #2 frames, and so on up to the total number of frames specified. This feature provides a very efficient way to extend the dynamic range of the oscilloscope while acquiring repeatable sequences of events.

Advanced search and mark

Isolating the key event causing your system failure can often be a tedious task. With the Advanced Event Search and Mark feature standard on the DPO70000SX Series, examining data and highlighting important events, skipping the unimportant ones, and enhancing the comprehension of event relationships is made easy. With ASM, you'll be able to navigate through long record length acquisitions effortlessly and quickly locate the event you have been trying to find. Advanced searches can be defined individually or using the scope's trigger settings as the definition for the search. Even Visual Trigger areas can be used as part of the ASM criteria.


DPO70000SX-Digital-Oscilloscope-Datasheet


Advanced Search and Mark - Highlights important events and provides convenient previous and next buttons and mouse clicks to navigate between events of interest effortlessly

Probing and remote-head coaxial input

Often the biggest challenge in debugging a system is getting access to the required signals. Tektronix offers a wide array of probing solutions, including the P7700, P7600, and P7500 TriMode™ probing system with bandwidths that are perfectly matched to the DPO70000SX Series. The P7700, P7600, and P7500 TriMode probes allow you to switch among differential, single ended, and common-mode measurements without moving the probe from its connection points. The P7600 Series combines low noise, 33 GHz bandwidth and the convenience of Trimode probing. The P7500 Series offers probes with performance from 4 GHz to 25 GHz and offers several low-cost solder tips with quick connection features that allow moving the probe to various solder points fast and easy.


DPO70000SX-Digital-Oscilloscope-Datasheet


The low-cost solder tips available for the P7500 TriMode probes allow quick connection so moving the probe to various solder points is fast and easy.

P7700 Series TriMode Probes

The P7700 Series TriMode probes provide the highest probe fidelity available for real-time oscilloscopes. In addition, with connectivity innovations such as solder down tips with the probe’s input buffer mounted only a few millimeters from the end of the tip, the P7700 Series probes provide unmatched usability for connecting to today’s most challenging electronic designs.


DPO70000SX-Digital-Oscilloscope-Datasheet


P77STFLXA solder down, flex circuit accessory with an active buffer amplifier on its tip provides up to 20 GHz bandwidth.

DPO7OE Series Optical Probes

The DPO7OE Series Optical probes can be used as an Optical Reference Receiver for high speed serial data signals (using selectable Bessel-Thomson ORR filters), or can be used as a conventional O/E converter for general wide-bandwidth optical signal acquisition. The DPO7OE Series is compatible with DPO/MSO70000 C/DX/SX models. Connected to TekConnect channels for up to 33 GHz bandwidth. Connected to ATI channels, the DPO7OE1 provides up to 42 GHz electrical response; the DPO7OE2 provides up to 59 GHz electrical bandwidth response.


DPO70000SX-Digital-Oscilloscope-Datasheet


DPO7OE1 33 GHz Optical Probe

Signal acquisition

ATI input

The DPO77002SX 70 GHz ATI input channel uses industry-standard 1.85 mm coaxial connection system specified to 67 GHz, with typical performance to 70 GHz. The instrument includes a calibration-grade 1.85 mm female-female adapter installed in the ATI input connector (male) to provide mechanical protection and gender selection. Instruments also include a static protection wrist strap, torque wrench and a set of backing wrenches to facilitate proper care and installation of signal path elements, ensuring optimal measurement performance. The 1.85 mm connection system is compatible with 2.4 mm (50 GHz) elements.

TekConnect® inputs

DPO70000SX models include the TekConnect signal interconnect system, offering unparalleled versatility with a wide array of accessory signal access and conditioning solutions. The TCA292D TekConnect adapter provides 2.92 mm connection, 50 Ω coaxial environment to 33 GHz.

High performance Auxiliary Trigger input

DPO70000SX includes an Auxiliary Trigger input (TekConnect) suitable for high performance Edge triggering without consuming an acquisition channel. Aux trigger bandwidth is >10 GHz on the DPO70000SX Series with <1.5 psRMSjitter.

Channel timing deskew

All DPO70000SX models include differential fast-edge outputs matched to <1.6 ps on the front panel that provide a convenient source for aligning channel timing in a coaxial environment. Instruments include accessories to accomplish channel-to-channel timing deskew using the built-in source. Additional accessories can be purchased separately to accomplish even finer time alignment or deskew in a probe-based environment

DPO7RF Signal Path Solutions

The DPO7RF Signal Path Solutions kits provide you with preconfigured kits of components you can use to optimize measurement performance in your ultra-high bandwidth applications. Kits include attenuators, adapters, DC Blocks, power divider, cleaning swabs, color marking bands, S-parameters and documentation.

  • Kits and cables include S-parameter files and documentation on a USB memory stick
  • Kits include signal path marking accessories
  • Kits include cleaning swabs for proper maintenance of sensitive RF components

DPO70000SX-Digital-Oscilloscope-Datasheet

DPO7RFK1-1.85 mm characterized attenuator kit.


DPO70000SX-Digital-Oscilloscope-Datasheet


DPO7RFK2-Extended 1.85 mm characterized attenuator/adapter kit.


DPO70000SX-Digital-Oscilloscope-Datasheet


DPO7RFK3-1.85 mm deskew kit.

Bench or rack mount

DPO70000SX models are equally suited for bench and rack-mounted use and complimented with a number of elements to address specific environments.

UltraSync cables are available in 1 meter and 2 meter lengths to enable configuration flexibility. The default 1 meter cable is suitable for typical two- and four-unit configurations with uniformly stacked instruments. The longer cable enables combinations operating at 90° to one another or face-to-face around a DUT. Cable length can be mixed in a configuration to suit application need and time de-skewed as a system to provide precise channel-to-channel time alignment.

Instrument cases include recesses that align with feet such that stacked units mechanically engage one another for added stability. This feature also works in inverted-stacking configurations and mixed stacks that include an OM4000 Optical Receiver. Models include threaded holes for user-provided side brackets in cases where specific combinations are to be "locked" together.


DPO70000SX-Digital-Oscilloscope-Datasheet


DPO70000SX units may even be operated inverted if desired, to shorten OMA receiver connection distance as shown.

Rack environment

The DPO70000SX rack mount is a tray directly attached to the instrument. The tray occupies 1U rack height in addition to the 3U instrument and preserves a cooling channel for the unit. The rack mount also provides heavy-duty carry handles for transporting the instrument outside the rack environment.

DPO70000SX-Digital-Oscilloscope-Datasheet


The rack-mounting kit allows units to be mounted upright or inverted to minimize input cable length, just as when stacking on a bench.

The DPO70000SX rack-mount tray can also house a front-mounted Solid State Drive (SSD) for easy access to instrument mass storage in a rack environment.

Specifications

All specifications are guaranteed unless noted otherwise. All specifications apply to all models unless noted otherwise.

Model overview
 DPO77002SX/DPS77004SX DPO75902SX/DPS75904SX DPO75002SX/DPS75004SX
 ATI channel TekConnect channels ATI channel TekConnect channels ATI channel TekConnect channels
Analog channels/bandwidth DPO77002SX
1 ch/67 GHz
1 ch/70 GHz (typical)
DPS77004SX
2 ch/67 GHz
2 ch/70 GHz (typical)
DPO77002SX
2 ch/33 GHz
DPS77004SX
4 ch/33 GHz
DPO75902SX
1 ch/59 GHz
DPS75904SX
2 ch/59 GHz
DPO75902SX
2 ch/33 GHz
DPS75904SX
4 ch/33 GHz
DPO75002SX
1 ch/50 GHz
DPS75004SX
2 ch/50 GHz
DPO75002SX
2 ch/33 GHz
DPS75004SX
4 ch/33 GHz
Sample rate per channel 200 GS/s 100 GS/s 200 GS/s 100 GS/s 200 GS/s 100 GS/s
Rise time (typical) 10% to 90%: 5.6 ps 20% to 80%: 4.3 ps 10% to 90%: 13 ps 20% to 80%: 9 ps 10% to 90%: 6.8 ps 20% to 80%: 5.2 ps 10% to 90%: 13 ps 20% to 80%: 9 ps 10% to 90%: 7.8 ps 20% to 80%: 6 ps 10% to 90%: 13 ps 20% to 80%: 9 ps
Vertical Noise (% of full scale), BWE on, max sample rate (typical) 0.83% of full scale 0.71% of full scale 0.83% of full scale 0.71% of full scale 0.83% of full scale 0.71% of full scale
0.75% of full scale @ 0 V offset (300 mVFS) 0.56% of full scale @ 0 V offset (500 mVFS) 0.75% of full scale @ 0 V offset (300 mVFS) 0.56% of full scale @ 0 V offset (500 mVFS) 0.75% of full scale @ 0 V offset (300 mVFS) 0.56% of full scale @ 0 V offset (500 mVFS)
Record length, points (each channel, standard) 62.5 M 62.5 M 62.5 M 62.5 M 62.5 M 62.5 M
Record length (each channel, Opt. 10XL) 125 M 125 M 125 M 125 M 125 M 125 M
Record length (each channel, Opt. 20XL) 250 M 250 M 250 M 250 M 250 M 250 M
Record length (each channel, Opt. 50XL) 1 G 1 G 1 G 1 G 1 G 1 G
Timing resolution 5 ps (200 GS/s) 10 ps (100 GS/s) 5 ps (200 GS/s) 10 ps (100 GS/s) 5 ps (200 GS/s) 10 ps (100 GS/s)
Duration at highest sample rate (Standard) 313 µs 625 µs 313 µs 625 µs 313 µs 625 µs
Duration at highest sample rate (Opt. 10XL) 625 µs 1.25 ms 625 µs 1.25 ms 625 µs 1.25 ms
Duration at highest sample rate (Opt. 20XL) 1.25 ms 2.5 ms 1.25 ms 2.5 ms 1.25 ms 2.5 ms
Duration at highest sample rate (Opt. 50XL) 5.0 ms 10 ms 5.0 ms 10 ms 5.0 ms 10 ms
 DPO73304SX/DPS73308SX DPO72304SX
 TekConnect channels TekConnect channels
Analog channels/bandwidth DPO73304SX
2 ch/33GHz, 4 ch/23GHz
DPS73308SX
4 ch/33GHz, 8 ch 1/23GHz
DPO72304SX
4 ch/23GHz
Sample rate per channel DPO73304SX
2 ch 100 GS/s, 4 ch 50 GS/s
DPS73308SX
4 ch 100 GS/s, 8 ch1 50 GS/s
2 ch 100 GS/s, 4 ch 50 GS/s
Rise time (typical) 10% to 90%: 13 ps 20% to 80%: 9 ps 10% to 90%: 17 ps 20% to 80%: 13 ps
Vertical Noise (% of full scale), BWE on, max sample rate (typical) 0.71% of full scale 0.71% of full scale
0.56% of full scale @ 0V offset (500 mVFS) 0.56% of full scale @ 0 V offset (500 mVFS)
Record length, points (each channel, standard) 62.5 M 62.5 M
Record length (each channel, Opt. 10XL) 125 M 125 M
Record length (each channel, Opt. 20XL) 250 M 250 M
Record length (each channel, Opt. 50XL) DPO73304SX
1 G on 2 ch, 500 M on 4 ch
DPS73308SX
1 G on 2 ch each unit, 500 M on 4 ch each unit
1 G on 2 ch, 500 M on 4 ch
Timing resolution 10 ps (100 GS/s) 10 ps (100 GS/s)
Duration at highest sample rate (Standard) 625 µs 625 µs
Duration at highest sample rate (Opt. 10XL) 1.25 ms 1.25 ms
Duration at highest sample rate (Opt. 20XL) 2.5 ms 2.5 ms
Duration at highest sample rate (Opt. 50XL) 10 ms 10 ms

1Maximum of 4 channels displayed on-screen. Additional channels data available through program interface.

Vertical system - analog channels
Input coupling
TekConnect channels:

Two modes: DC, 50 ohms to a programmable termination voltage; Ground.

The termination can be connected to a DC voltage:

≤ 1.2 VFSsettings: -3.5 V to 3.5 V,

> 1.2 VFSsettings: 0.0 V

ATI channel:

DC, 50 Ω.

Input resistance
≤1.2 VFS settings

50 Ω ±3% at 18 to 28 ºC (64 to 82 ºF)

50 Ω ±4% over 5 to 45 ºC (45 to 113 ºF)

>1.2 VFS settings
50 Ω ±4.4% over 5 to 45 ºC (45 to 113 ºF)
Sensitivity range
TekConnect channels
62.5 mVFS to 6 VFS
ATI channel
100 mVFS to 300 mVFS.
Maximum input voltage
TekConnect channels:

≤1.2 VFSsettings:

±1.5 V relative to the termination bias (30 mA maximum)

±5 V absolute maximum input

>1.2 VFSsettings:

±8 V. Limited by maximum Vterm current and the attenuator power rating at maximum temperature.

ATI channel:

±0.75 Vpk

Aux channel:
±5.0 Vpk
Input termination voltage (VTerm) range, TekConnect channels
≤1.2 VFS settings:
-3.5 V to +3.5 V
>1.2 VFS settings:
0 V
Frequency response tolerance
All modes, BWE on, 18 ºC to 28 ºC (typical)
TekConnect channel:

Step settings TekConnect channels: 77.5 mVFS, 151 mVFS, 302 mVFS, 605 mVFS, 1210 mVFS., 1620 mVFS,3240 mVFS

±0.5 dB from DC to 50% of nominal BW

±1.5 dB from 50% to 80% of nominal BW

All other gain settings:

±1.0 dB from DC to 50% of nominal BW

±2.0 dB from 50% to 80% of nominal BW

ATI channel:

All volts/div settings

±0.5 dB from DC to 20 GHz

±0.75 dB from >20 GHz to 30 GHz

±1.25 dB from >30 GHz to 68.5 GHz

±2 dB from >68.5 GHz to 69.5 GHz

+2 / -3 dB at 70 GHz

Bandwidth limit
Depending on instrument model: 70 GHz to 1 GHz in 1 GHz steps, or 500 MHz; 5 GHz steps above 35 GHz

Hardware-only bandwidth settings at 33 GHz available on non-ATI channels. No hardware-only settings available on ATI channel.

Vertical resolution
8 bits, (11 bits with averaging)
DC gain accuracy
± 2%
Effective number of bits (typical). Average value from DC to full bandwidth of model.
70 GHz ATI Channel 4.6 bits at 250 mV FS, 200GS/s
59 GHz ATI Channel4.8 bits at 250 mV FS, 200GS/s
50 GHz ATI Channel5.0 bits at 250 mV FS, 200GS/s
33 GHz TekConnect Channels 5.0 bits at 500 mV FS, 100GS/s
23 GHz TekConnect Channels5.4 bits at 500 mV FS, 100GS/s
Offset range
TekConnect channels
Full Scale voltage range Offset range
62.5 mVFS – 1.2 VFS±3.4 V
>1.2 VFS – 6 VFS±6 V
ATI channel
Full Scale voltage range Offset range
100 mVFS – 300 mVFS±300 mV - (10 div × Volts/div)
Offset accuracy
Full scale voltage range Offset accuracy
62.5 mVFS to 1.2 VFS (TekConnect channels) ±(0.4% | net offset | + 0.2% | net offset – Vterm setting | + 2.5 mV + 1% FS)
>1.2 VFS to 6 VFS (TekConnect channels) ±(0.6% | net offset | + 13.4 mV + 1% FS)
100 mVFS to 300 mVFS (ATI channel) ±(0.35% | net offset | + 2 mV + 1% FS)
Position range
± 5 divisions
Channel-to-channel crosstalk (channel isolation), typical

Input frequency range (up to the rated bandwidth). Assumes two channels with the same scale and bandwidth settings. The limits apply up to the bandwidth of the particular instrument.

ATI models
Specified channels Instrument frequency range Isolation
ATI channels (isolation between any two [or more] ATI channels in separate units), requires UltraSync DC to 70 GHz 70 dB
TekConnect channels in an ATI unit (isolation between channels 1 and 3) DC to 33 GHz 60 dB
TekConnect channels to ATI channel (isolation between channels 1 and 3 to channel 2) DC to 4 GHz 55 dB
>4 GHz to 10 GHz 45 dB
>10 GHz to 20 GHz 35 dB
>20 GHz to 30 GHz 30 dB
>30 GHz to 33 GHz 27 dB
ATI channel to TekConnect (non-ATI) channels (isolation between channel 2 and channels 1 or 3) DC to 3 GHz 55 dB
>3 GHz to 12 GHz 40 dB
>12 GHz to 33 GHz 30 dB
>33 to 70 GHz 60 dB
TekConnect models (non-ATI)
Specified channels Instrument frequency range Isolation
Isolation between channels 1 or 2 and channels 3 or 4  DC to 33 GHz 60 dB
Isolation between channels 1 and 2, or channels 3 and 4  DC to 2 GHz 60 dB
>2 to 10 GHz 42 dB
>10 to 20 GHz 35 dB
>20 to 33 GHz 30 dB
Displayed Average Noise Level (DANL) (typical)

6.25 mV/div (10 mV/div for ATI channel)

500 kHz span, 1 kHz RBW

Peak detector, averaged trace, input terminated

DC-500 MHz
500 MHz - 20 GHz
20 GHz - 70 GHz
≤ -145 dBm/Hz
≤ -155 dBm/Hz
≤ -150 dBm/Hz
29 dB NF
19 dB NF
24 dB NF
Signal to noise dynamic range (typical)
TekConnect channel
3 dBm input @ 1 GHz, 100 mV/div
CF 1 GHz, 50 MHz span, 1 kHz RBW, +20 MHz from center
-102 dB
ATI channel
-7.5 dBm input @ 65 GHz, 30 mV/div
CF 65 GHz, 50 MHz span, 1 kHz RBW, +20 MHz from center
-95 dB
Phase noise (typical)
30 mV/div, input signal 90% full scale
 10 kHz 100 kHz 1 MHz 10 MHz
1 GHz -113 dBc/Hz -120 dBc/Hz -133 dBc/Hz -139 dBc/Hz
12.5 GHz -95 dBc/Hz -98 dBc/Hz -127 dBc/Hz -139 dBc/Hz
40 GHz -86 dBc/Hz -89 dBc/Hz -110 dBc/Hz -132 dBc/Hz
60 GHz -82 dBc/Hz -87 dBc/Hz -110 dBc/Hz -125 dBc/Hz
2nd/3rd harmonic distortion

6.25 mV/div (10 mV/div for ATI channel)

Input signal -26 dBm (-22 dBm for ATI channel)

TekConnect channel

Fundamental

2nd3rd
1 GHz ≤ -60 dBc ≤ -55 dBc
500 MHz - 10 GHz ≤ -55 dBc ≤ -50 dBc
10 GHz -16.5 GHz ≤ -45 dBc ≤ -50 dBc
ATI channel
1 GHz ≤ -60 dBc ≤ -50 dBc
500 MHz - 10 GHz ≤ -60 dBc ≤ -45 dBc
10 GHz - 25 GHz ≤ -50 dBc ≤ -50 dBc
25 GHz - 35 GHz ≤ -40 dBc ≤ -50 dBc
2 Tone 3rd order intermodulation intercept TOI (typical)
TekConnect channel
200 mV/div, 3 dBm input/tone
2.598 GHz and 2.602 GHz
20 MHz span, 100 kHz RBW
 
+30 dBm
ATI channel
30 mV/div, -15 dBm input/tone
64.998 GHz and 65.002 GHz
20 MHz span 100 kHz RBW
 
+10 dBm
2 Tone 3rd order intermodulation distortion (typical)

6.25 mV/div (10 mV/div for ATI CH)

-34 dBm input/tone (-29 dBm input/tone for ATI channel)

10 MHz separation, 50 MHz span, 100 kHz RBW

TekConnect
10 MHz - 33 GHz
≤ -45 dBc
ATI channel
10 MHz - 65 GHz
≤ -40 dBc
SFDR (typical)
TekConnect channel
CF 2.5 GHz, span 5 GHz, 100 kHz RBW, 50 mV/div
Input -8 dBm @ 1 GHz
≤ -65 dBc
ATI channel
CF 65 GHz, span 6 GHz, 100 kHz RBW, 30 mV/div
Input -12 dBm @ any frequency from 62 GHz - 68 GHz
≤ -55 dBc
Other spurious responses (typical)

6.25 mV/div (10 mV/div for ATI channel)

Input signal -26 dBm (-22 dBm for ATI channel)

After SPC, EENOB enabled

Interleave image (all channels)
Spur freq. = N(12.5 GHz) +-Fin, N from 1 to 5  ≤ -40dBc
ATI channel image
Spur freq. = 37.5 GHz + Fin for Fin DC-37.5 GHz
37.5 GHz - Fin for Fin 37.5 GHz to 70 GHz
≤ -30dBc
Residual responses

With input terminated

6.25 mV/div (10 mV/div for ATI channel)

After SPC, EENOB enabled

TekConnect channel
Exceptions at 12.5 GHz and 25 GHz
≤ -75 dBm
≤ -60 dBm
ATI channel
Exceptions at 12.5 GHz, 25 GHz, 37.5 GHz, and 50 GHz
≤ -75 dBm
≤ -60 dBm
Input VSWR (typical)
TekConnect channel ≤ 1.2 Vfs settings
DC - 17 GHz
17 GH - 20 GHz
20 GHz - 33 GHz
1.4:1 
1.6:1 
2.0:1 
TekConnect channel >1.2 Vfs settings
DC - 17 GHz
17 GHz - 33 GHz
1.4:1 
2.0:1 
ATI channel
DC - 20 GHz
20 GHz - 33 GHz
33 GHz - 70 GHz
1.5:1 
1.8:1 
2.6:1 
Horizontal system
Time base accuracy

±0.8 x 10-6(within 1styear), ±0.3 x 10-6aging/year after first year when operated within 23°C ±5°C after 30 minute warm-up.

Typical: ±0.1 x 10-6initial accuracy after adjustment.

Time base delay time range
–5.0 ks to 1.0 ks
Sample Clock Jitter (typical)
ATI channel

<10 μs Duration: <65 fsRMS

TekConnect channel
<10 μs Duration: <100 fsRMS
Trigger jitter (typical)
10 fs using enhanced trigger placement.
Time/Div settings
ATI channel (only sample rate is 200 GS/s)

Max RT setting: 500 μs/div (with 1G RL, 50XL option)

Min RT setting: 25 ps/div

Max IT setting: 250 μs/div (with 1G RL, 50XL option)

Min IT setting: 500 fs/div

TekConnect channels1 (at max sample rate of 100 GS/s)

Max RT setting: 1 ms/div (with 1G RL, 50XL option)

Min RT setting: 50 ps/div

Max IT setting: 10 μs/div (with 1G RL, 50XL option)

Min IT setting: 500 fs/div

1Sample rate on TekConnect channels can be varied down to 3.125 samples/second, resulting in a max RT setting of 6.55 Ms/div, with a record length of 205 M (requires 250 M or higher RL, 20XL option)

Delay between channels, BWE (typical)

≤ 500 fs between any two channels within the same box at any gain setting at 25 °C ±5 °C prior to any user adjustment. Manual adjustment available with 10 fs minimum resolution. Derate linearly to ≤ 1.5  ps at 5 °C and 45 °C.

Channel skew stability, UltraSync (typical)

≤ 250 fsRMSbetween any two channels between instruments at any gain setting at 25 °C ±5 °C. Derate linearly to ≤ 3 ps at 5 °C and 45 °C.

Channel-to-Channel deskew range
±75 ns
Acquisition system
Trigger sensitivity (typical)
Internal DC coupled
A-Event trigger, B-Event trigger ≤ 5%FS from DC to 50 MHz
≤ 7.5%FS at 5 GHz
≤ 10%FS at 10 GHz
≤ 15%FS at 15 GHz
≤ 35%FS at 20 GHz
≤ 50%FS at 25 GHz
Aux input 50 Ω (external trigger)
Auxiliary input 100 mVpp from DC to 1 GHz
175 mVpp at 4 GHz
225 mVpp at 8 GHz
325 mVpp at 10 GHz
800 mVpp at 12 GHz
Edge trigger sensitivity, non-DC-coupled modes (typical)
All sources, positive or negative edge, for vertical scale settings ≥10 mV/div and ≤1 V/div
Trigger Coupling Sensitivity
NOISE REJ 15%FS from DC to 50 MHz
22.5% at 5 GHz
30%FS at 10 GHz
45%FS at 15 GHz
100%FS at 20 GHz
AC Same as DC-coupled limits for frequencies > 100 Hz, attenuates signals <100 Hz
HF REJ Same as DC-coupled limits for frequencies < 20 kHz, attenuates signals > 20 kHz
LF REJ Same as DC-coupled limits for frequencies > 200 kHz, attenuates signals < 200 kHz
RF Minimum hysteresis / High sensitivity
A TRIG TekConnect
2.5% FS from DC to 50 MHz
2.5% FS at 5 GHz
2.5% FS at 10 GHz
5% FS at 15 GHz
7.5% FS at 20 GHz
12.5% FS at 25 GHz
B TRIG TekConnect
2.5% FS from DC to 50 MHz
2.5% FS at 5 GHz
2.5% FS at 10 GHz
5% FS at 15 GHz
7.5% FS at 20 GHz
20% FS at 25 GHz
A TRIG ATI
2.5% FS from DC to 50 MHz
2.5% FS at 5 GHz
2.5% FS at 10 GHz
5% FS at 15 GHz
10% FS at 20 GHz
22.5% FS at 25 GHz
B TRIG ATI
2.5% FS from DC to 50 MHz
2.5% FS at 5 GHz
2.5% FS at 10 GHz
5% FS at 15 GHz
10% FS at 20 GHz
22.5% FS at 25 GHz
A-Event and delayed B-Event trigger types
Standalone instrument

DPO73304SX

DPO72304SX

DPO77002SX

DPO75902SX

DPO75002SX

Trigger type TekConnect channel ATI channel TekConnect channel
Edge X X X
Glitch X X X
Width X X X
Runt X X X
Serial (8b10b) X X X
Window X X X
Timeout X X X
Period/Frequency X X X
Envelope X X X
Transition X X X
Logic Pattern X  X
Setup/Hold X  X
Logic state X   
Multi-unit configuration

DPO73304SX

DPO72304SX

DPO77002SX

DPO75902SX

DPO75002SX

Trigger type TekConnect channel ATI channel TekConnect channel
Edge X X X
Glitch X X X
Width X X X
Main trigger modes
Auto, Normal, and Single
Trigger sequences
Main, Delayed by Time, Delayed by Events, Reset by Time, Reset by State, Reset by Transition. All sequences can include a separate horizontal delay after the trigger event to position the acquisition window in time
Trigger coupling

DC, AC (attenuates <100 Hz)

HF Rej (attenuates >20 kHz)

LF Rej (attenuates <200 kHz)

Noise Reject (reduces sensitivity)

RF coupling (increases trigger sensitivity and bandwidth at the highest operating frequencies)

Variable A-Event trigger holdoff range
250 ns to 12 s + random holdoff
Trigger level or threshold range
Trigger Source Range
Ch1, 2, 3, or 4  Full scale
Auxiliary input ±3.65 V
Line 0 V, Not settable
Enhanced triggering

Enhanced triggering corrects the difference in timing between the trigger path and the acquired data path (supports all Pinpoint trigger types on both A- and B-Events except pattern trigger); Default On (user-selectable); Not available in FastAcq mode.

Line trigger
Trigger on power line signal. Level fixed at 0 V.
Serial pattern trigger
All 70000SX models. Requires Option ST14G
Visual Trigger
Requires Option VET
Max number of areas
Area shapes
Rectangle, Triangle, Trapezoid, Hexagon, user defined shapes (can have >40 vertices)
Compatibility
Visual Trigger qualification is compatible with all trigger types and all trigger sequences
Trigger types
Trigger type Description
Bus Trigger Trigger on 8b10b buses, up to 160 bits
Edge Positive or negative slope on any channel or front-panel auxiliary input. Coupling includes DC, AC, noise reject, HF reject, LF reject, and RF coupling.
Frequency/Period Trigger on event that crosses threshold twice with same slope within or outside of selectable time limits. Slope may be positive, negative or either.
Glitch Trigger on or reject glitches of positive, negative, or either polarity. Minimum glitch width is 40 ps (typical) with rearm time of 50 ps (<5 ns interval), 75 ps above 5 ns.
Pattern Trigger when pattern goes false or stays true for specified period of time. Pattern (AND, OR, NAND, NOR) specified for four input channels.
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. Minimum runt width is 40 ps (typical) with rearm time of 50 ps
Serial Trigger (8b10b) Trigger on 8b10b encoded data, up to 160 bits
Setup/Hold Trigger on violations of both setup time and hold time between clock and data present on any two input channels.
State Any logical pattern of channels (1, 2, 3) clocked by edge on channel 4. Trigger on rising or falling clock edge.
Timeout 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.
Width Trigger on width of positive or negative pulse either within or out of selectable time limits (down to 40 ps).
Window Trigger on an event that enters or exits a window defined by two user-adjustable thresholds. Event can be time or logic qualified.
Visual Trigger Trigger when the Visual Trigger expression is satisfied.
Envelope Qualification applied to Edge, Glitch, Width or Runt trigger such that trigger type is performed on the detected envelope of a modulated carrier. Carrier frequency 250 MHz to 15 GHz. Minimum burst width <20 ns, maximum gap between bursts <20 ns.
Waveform analysis
Waveform processing/math
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)

Arithmetic
Add, Subtract, Multiply, Divide Waveforms and Scalars
Filtering function

User-definable filters. Users specify a file containing the coefficients of the filter. Several example filter files are provided

Frequency domain functions
Spectral Magnitude and Phase, Real and Imaginary Spectra
Mask function

Generates a Waveform Database pixel map from a sample waveform. Sample count can be defined

Math functions

Average, Invert, Integrate, Differentiate, Square Root, Exponential, Log 10, Log e, Abs, Ceiling, Floor, Min, Max, Sin, Cos, Tan, ASin, ACos, ATan, Sinh, Cosh, Tanh

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

Customized Functions using Math Plug-in Interface

An interface is provided to allow users to create their own custom math functions in MATLAB or Visual Studio

Display system
Color palettes
Normal, Green, Gray, Temperature, Spectral, and User-defined
Format
YT, XY, XYZ
Display resolution
1024 horizontal × 768 vertical pixels (XGA)
Display type
6.5 in. liquid-crystal active-matrix color display with capacitive touch screen
Horizontal divisions
10 
Vertical divisions
10 
Waveform styles
Vectors, Dots, Variable Persistence, Infinite Persistence
Computer system and peripherals
Operating system
Microsoft Windows 10 Enterprise IoT Edition
CPU

INTEL CORE I7-4790S, 3.2 GHz, QUAD CORE

System memory
32 GB
Solid state drive
Removable, ≥900 GB capacity
Mouse
Optical wheel mouse, USB interface
Keyboard
USB interface
Input-output ports
Auxiliary trigger input characteristics and range
50 Ω, ±5 V (DC plus peak AC)
Auxiliary output logic polarity and functionality

Default output is A trigger low true (a negative edge when the A trigger event occurs). You can also program the output to A trigger high true, and B trigger low or high true.

Fast Edge output step amplitude and offset

1200 mV differential into a 100 Ω load with a -300 mV common mode.

External reference input frequency

10 MHz, 100 MHz, 12.5 GHz

The instrument scans for either 10 MHz or 100 MHz. 12.5 GHz supported on separate SMA input.

12.5 GHz Clock In
1.3 Vp-p (6 dBm)
B, C, D 12.5 GHz Clock Out (UltraSync)
1.3 Vp-p (6 dBm)
Internal reference output voltage (typical)
10 MHz Vout pk-pk

> 800 mV peak-peak into 50 Ω

> 1.6 V peak-peak into 1 MΩ (internally AC coupled).

Input and output ports
DVI-D Video port

A female Digital Visual Interface (DVI-D) compatible port

VGA port
A female Video Graphics Array (VGA) compatible port
DisplayPort
Two connectors (primary, secondary) provide digital display interfaces
PCIe
PCIe ports to configure multi-instrument systems
Trigger

UltraSync trigger bus

Keyboard and Mouse ports
PS-2 compatible, instrument must be powered down to make connection
LAN ports
Two RJ-45 connectors (LAN1, LAN2), support 10BASE-T, 100BASE-TX, and Gigabit Ethernet
External audio ports
External audio jacks for microphone input and line output
USB ports

Four front panel USB 2.0 connectors

Four rear panel USB 3.0/USB 2.0 connectors

One rear panel USB device connector

Data storage specifications
Nonvolatile memory retention time (typical)
>20 years
Solid state drive

Waveforms and setups are stored on the solid state drive.

Solid state drive is a ≥900 GB solid state drive (removable).

Power source
Power consumption

<980 W, single instrument, maximum

≤780 W, single unit (typical)

Source voltage and frequency

100 V to 240 VRMS, 50/60 Hz

115 V ±10%, 400 Hz

CAT II

Mechanical specifications
Dimensions
DPO70000SX models
157 mm (6.0 in) height
452 mm (17.8 in) width
553 mm (21.8 in) depth
DPO70000SX models, Rackmount configuration
177 mm (7.0 in) height
440 mm (19.75 in) width
523 mm (20.6 in) depth (from rack mounting ear to back of instrument)
Weight
DPO70000SX models

19 kg (42 lbs) oscilloscope only

Cooling
Required clearances
Fan-forced air circulation with no air filter
Top 0 mm (0 in)
Bottom 6.35 mm (0.25 in) minimum or 0 mm (0 in) when standing on feet, flip stands down
Left side 76 mm (3 in)
Right side 76 mm (3 in)
Rear 0 mm (0 in) on rear feet
Environmental specifications
Temperature
Operating
+5 °C to +45 °C
Nonoperating
-20 °C to +60 °C
Humidity
Operating

8% to 80% relative humidity at up to +32 °C (+90 °F)

5% to 45% relative humidity above +32 °C (+90 °F) up to +45 °C (+113 °F), noncondensing, and is limited by a maximum wet-bulb temperature of +29.4 °C (+85 °F) (derates relative humidity to 32% at +45 °C (+113 °F)

Nonoperating

5% to 95% relative humidity at up to +30 °C (+86 °F),

5% to 45% relative humidity above +30 °C (+86 °F), up to +60 °C (+140 °F), noncondensing, and is limited by a maximum wet-bulb temperature of +29.4 °C (+85 °F) (derates relative humidity to 11% at +60 °C (+140 °F))

Altitude
Operating
Up to 3,000 meters
Nonoperating
Up to 12,000 meters

Ordering information

Models
DPO77002SX
70 GHz ATI Performance Oscilloscope
DPO75902SX
59 GHz ATI Performance Oscilloscope
DPO75002SX
50 GHz ATI Performance Oscilloscope
DPO73304SX
33 GHz Digital Phosphor Oscilloscope
DPO72304SX
23 GHz Digital Phosphor Oscilloscope
Systems

The following DPS systems provide single-nomenclature ordering convenience for 2 instruments and a 1 meter UltraSync cable. The same options may be applied to these systems as with base models and the option will be included on both instruments. Both component instruments will have the same options associated with the system nomenclature when operating standalone.

DPS77004SX
70 GHz ATI Performance Oscilloscope System: 2 x 70 GHz, 200 GS/s or 4 x 33 GHz, 100 GS/s
DPS75904SX
59 GHz ATI Performance Oscilloscope System: 2 x 59 GHz, 200 GS/s or 4 x 33 GHz, 100 GS/s
DPS75004SX
50 GHz ATI Performance Oscilloscope System: 2 x 50 GHz, 200 GS/s or 4 x 33 GHz, 100 GS/s
DPS73308SX
33 GHz Digital Phosphor Oscilloscope System: 4 x 33 GHz, 100 GS/s or 8  1 x 23 GHz, 50 GS/s

1Maximum of 4 channels displayed on-screen. Additional channels data available through program interface.

Standard accessories
ATI channel accessories
Accessory Tektronix part number
Deskew adapter (1.85M to 2.92F) 103-0488-00 
ATI connector saver (1.85 mm) 103-0474-00 
ATI protective cap 016-2101-00 
Torque wrench 067-2787-00 
Backing wrench 003-1942-00 
Instrument accessories
Accessory Tektronix part number
User manual -- depends on language option 071-3357-xx
Front protective cover 200-5337-00 
PCIe Host Port protective plug 200-5344-00 
2nd ethernet port plug 200-5389-00 
50 Ω term on Fast Edge (2X) 015-1022-01 
TCA292D (5X) (3X on ATI instruments) 090-0058-00 
Windows compatible keyboard 119-7275-xx
Windows compatible mouse 119-7054-xx
Static protection wrist strap 006-3415-05 
Deskew cable (M2.92 to M2.92) 174-6793-00 
Accessories pouch 016-2045-00 
Best Practices manual 071-2989-04 
RoHS info 071-2185-04 
Calibration certification 001-1179-00 
Cal cert envelope 006-8018-01 
Power cord Depends on option
Warranty

One-year warranty covering all parts and labor.

Instrument options
Record length options
Option Description
Opt. 10XL 125 MS/Ch
Opt. 20XL 250 MS/Ch
Opt. 50XL 500 MS/Ch on 4 channels, 1 GS/Ch on 2 channels
Advanced analysis options
Option Description
Opt. BITERR Hi Speed Serial Bit Error Detector (Requires Opt. ST14G)
Opt. DDRA DDR Memory Bus Analysis (Requires Opt. DJA)
Opt. DDR-LP4 LPDDR4 Memory Bus Electrical Validation and Analysis Oscilloscope Software (Requires Opt. DJA)
Opt. DJA Jitter and Eye Analysis Tools - Advanced (DPOJET)
Opt. DJAN DPOJET Noise, Jitter and Eye Analysis Tools
Opt. DP12 DisplayPort 1.2 Source Test Automation Software (Requires Opt. DJA and 5XL)
Opt. D-PHY MIPI D-PHY Transmitter Debug, Characterization and Compliance Test Solution (Requires Opt. DJA)
Opt. EDP Embedded Display Port (EDP) v1.4 TX Compliance Test Package
Opt. ET3 Ethernet Compliance Testing
Opt. FC-16G Fiber Channel - 16G Essentials (Requires Opt. DJA)
Opt. FRQCNT Frequency Counter-Timer
Opt. HDM HDMI 2.0 Advanced Analysis and Compliance Software for Tx tests
Opt. HDM-DS HDMI 2.0 Direct Synthesis for RX testing
Opt. HSSLTA High Speed Serial Link Training Analysis.
Opt. HT3 HDMI Compliance Testing
Opt. HT3DS HDMI Direct Synthesis for HDMI 1.4 (Requires Opt. HT3)
Opt. LT Waveform Limit Testing
Opt. MHD MHL Advanced Analysis and Compliance Software (Requires Opt. DJA and 2XL)
Opt. M-PHY MIPI M-PHY Transmitter Debug, Characterization and Compliance Test Solution (Requires Opt. DJA)
Opt. M-PHYTX M-PHY Automated Transmitter Solution
Opt. NBASET NBASE-T TekExpress Conformance and Debug Solution
Opt. PAM4 PAM4 Electrical Transmitter Analysis Software
Opt. PAM4-O PAM4 Analysis for optical signals
Opt. PCE3 PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJet Measurements Software (Requires Opt. DJA)
Opt. PCE4 PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJET and SigTest Measurements Software, Gen 4 Debug with DPOJET Measurement Library (Requires Opt. DJA and Opt. SDLA64)
Opt. PWR Power Measurement and Analysis
Opt. SAS3 SAS-3 Tx Compliance Test Application (Requires Opt. DJA and >2XL)
Opt. SAS3-TSG SAS-3 Automated Tx Compliance Test Application (Requires Opt. DJA)
Opt. SAS3-TSGW SAS-3 WDP Transmitter Measurements (Requires Opt. SAS3-TSG)
Opt. SATA-TSG SATA PHY/TSG/OOB Transmitter Tests for TekExpress
Opt. SATA-T-UP TEKEXP Upgrade to SATA PHY/TSG/OOB Transmitter Tests for TekExpress
Opt. SC SignalCorrect Cable, Channel, and Probe Compensation Software
Opt. SDLA64 Serial Data Link Analysis
Opt. SFP-TX SFP+ Compliance and Debug Solution (Requires Opt. DJA)
Opt. SFP-WDP SFP+ Compliance and Debug Solution ? WDP Measurement (Requires Opt. DJA & SFP-TX)
Opt. SR-EMBD Embedded Serial Triggering and Analysis (I2C, SPI)
Opt. SR-COMP Computer Serial Triggering and Analysis (RS-232/422/485/UART)
Opt. SR-ENET Ethernet Serial Analysis (10BASE-T and 100BASE-TX)
Opt. SR-PCIE PCI EXPRESS Serial Analysis
Opt. SR-USB USB Serial Triggering and Analysis
Opt. ST14G 8b/10b Serial Trigger and Analysis
Opt. USB2 USB 2.0 Automated Compliance Test Application
Opt. USBSSP-TX USB 3.1 Automated TX Compliance Test Application
Opt. USBSSP-UP USB-TX to USBSSP-TX Upgrade
Opt. USB-TX TekExpress Automated USB 3.0 Solution
Opt. USB-TX-UP TEKEXP USB-TX to USB-TX Upgrade
Opt. VET Visual Trigger and Search
Opt. XGBT2 10GBASE-TekExpress Conformance and Debug Solution
Opt. 100G-TXE IEEE-802.3bm: CAUI4 and IEEE-802.3bj: KR4/CR4 100Gbps Transmitter Compliance (Requires Opt. DJA or DSA and DJAN)
Opt. 10G-KR 10GBASE-KR/KR4 Compliance and Debug Solution (Requires Opt. DJA, SR-CUST)
Opt. 40G-CR4 40GBASE-CR4 Debug and Automated Compliance Solution
Spectral and modulation analysis
Option Description
Opt. SVA AM/FM/PM Audio Signal Analysis (Requires Opt. SVE)
Opt. SVE SignalVu® Essentials - Vector Signal Analysis Software
Opt. SVM General Purpose Modulation Analysis (Requires Opt. SVE
Opt. SVO Flexible OFDM Analysis (Requires Opt. SVE)
Opt. SVP Advanced Signal Analysis (including pulse measurements) (Requires Opt. SVE)
Opt. SVT Frequency and Phase Settling Time Measurements (Requires Opt. SVE)
Opt. SV23 WLAN802.11a/b/g/j/p measurement application (Requires Opt. SVE)
Opt. SV24 WLAN 802.11n measurement application (Requires Opt SV23)
Opt. SV25 WLAN 802.11ac measurement application (Requires Opt SV24)
Opt. SV26 APCO P25 compliance testing and analysis application (Requires Opt. SVE)
Opt. SV27 SignalVu Bluetooth Basic LE TX SIG measurements (Requires Opt. SVE)
Opt. SV28 SignalVu LTE Downlink RF measurements (Requires Opt. SVE)
Opt. SV30 WiGig IEEE802.11ad transmitter testing (Requires Opt. SVE)
Storage options
OptionDescription
Opt. SSD Additional removable drive with Microsoft Windows 10 OS, TekScope, and applications software installed
Floating license options

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 MSO/DPO70000, DPO7000, and MSO/DPO5000 Series oscilloscopes. Floating licenses are available for the license-key enabled options listed below.

Checkwww.tek.com/products/oscilloscopes/floating-licensesfor additional information about floating license options.

Option Description
DPOFL-BITERR Hi Speed Serial Bit Error Detector (Requires Opt. ST14G)
DPOFL-DDRA DDR Memory Bus Analysis (Requires Opt. DJA)
DPOFL-DDR-LP4 LPDDR4 Memory Bus Electrical Validation and Analysis Oscilloscope Software (Requires Opt. DJA)
DPOFL-DJA Jitter and Eye Analysis Tools - Advanced (DPOJET)
DPOFL-DJAN DPOJET Noise, Jitter and Eye Analysis Tools
DPOFL-DP12 DisplayPort 1.2 Source Test Automation Software (Requires Opt. DJA and 5XL)
DPOFL-D-PHY MIPI D-PHY Transmitter Debug, Characterization and Compliance Test Solution (Requires Opt. DJA)
DPOFL-EDP Embedded Display Port (EDP) v1.4 TX Compliance Test Package
DPOFL-ET3 Ethernet Compliance Testing
DPOFL-FC-16G Fiber Channel - 16G Essentials (Requires Opt. DJA)
DPOFL-FRQCNT Frequency Counter-Timer
DPOFL-HDM HDMI 2.0 Advanced Analysis and Compliance Software for Tx tests
DPOFL-HDM-DS HDMI 2.0 Direct Synthesis for RX testing
DPOFL-HSSLTA High Speed Serial Link Training Analysis.
DPOFL-HT3 HDMI Compliance Testing
DPOFL-HT3DS HDMI Direct Synthesis for HDMI 1.4 (Requires Opt. HT3)
DPOFL-LT Waveform Limit Testing
DPOFL-MHD MHL Advanced Analysis and Compliance Software (Requires Opt. DJA and 2XL)
DPOFL-M-PHY MIPI M-PHY Transmitter Debug, Characterization and Compliance Test Solution (Requires Opt. DJA)
DPOFL-M-PHYTX M-PHY Automated Transmitter Solution
DPOFL-NBASET NBASE-T TekExpress Conformance and Debug Solution
DPOFL-PAM4 PAM4 Electrical Transmitter Analysis Software
DPOFL-PAM4-O PAM4 Analysis for optical signals
DPOFL-PCE3 PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJet Measurements Software (Requires Opt. DJA)
DPOFL-PCE4 PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJET and SigTest Measurements Software, Gen 4 Debug with DPOJET Measurement Library (Requires Opt. DJA and Opt SDLA64)
DPOFL-PWR Power Measurement and Analysis
DPOFL-SAS3 SAS-3 Tx Compliance Test Application (Requires Opt. DJA and >2XL)
DPOFL-SAS3-TSG SAS-3 Automated Tx Compliance Test Application (Requires Opt. DJA)
DPOFL-SAS3-TSGW SAS-3 WDP Transmitter Measurements (Requires Opt. SAS3-TSG)
DPOFL-SATA-TSG SATA PHY/TSG/OOB Transmitter Tests for TekExpress
DPOFL-SATA-T-UP TEKEXP Upgrade to SATA PHY/TSG/OOB Transmitter Tests for TekExpress
DPOFL-SC SignalCorrect Cable, Channel, and Probe Compensation Software
DPOFL-SDLA64 Serial Data Link Analysis
DPOFL-SFP-TX SFP+ Compliance and Debug Solution (Requires Opt. DJA)
DPOFL-SFP-WDP SFP+ Compliance and Debug Solution WDP Measurement (Requires Opt. DJA & SFP-TX)
DPOFL-SR-EMBD Embedded Serial Triggering and Analysis (I2C, SPI)
DPOFL-SR-COMP Computer Serial Triggering and Analysis (RS-232/422/485/UART)
DPOFL-SR-ENET Ethernet Serial Analysis (10BASE-T and 100BASE-TX)
DPOFL-SR-PCIE PCI EXPRESS Serial Analysis
DPOFL-ST14G 8b/10b Serial Trigger and Analysis
DPOFL-SR-USB USB Serial Triggering and Analysis
DPOFL-SVA AM/FM/PM Audio Signal Analysis (Requires Opt. SVE)
DPOFL-SVE SignalVu® Essentials – Vector Signal Analysis Software
DPOFL-SVM General Purpose Modulation Analysis (Requires Opt. SVE)
DPOFL-SVO Flexible OFDM Analysis (Requires Opt. SVE)
DPOFL-SVP Advanced Signal Analysis (including pulse measurements) (Requires Opt. SVE)
DPOFL-SVT Frequency and Phase Settling Time Measurements (Requires Opt. SVE)
DPOFL SV23 WLAN 802.11a/b/g/j/p measurement application (Requires Opt. SVE)
DPOFL SV24 WLAN 802.11n measurement application (Requires Opt. SV23)
DPOFL SV25 WLAN 802.11ac measurement application (Requires Opt. SV24)
DPOFL-SV26 APCO P25 compliance testing and analysis application
DPOFL-SV27 SignalVu Bluetooth Basic LE TX SIG measurements (Requires Opt. SVE)
DPOFL-SV28 SignalVu LTE Downlink RF measurements (Requires Opt. SVE)
DPOFL-SV30 WiGig IEEE802.11ad transmitter testing (Requires Opt. SVE)
DPOFL-USB2 USB 2.0 Automated Compliance Test Application
DPOFL-USBSSP-TX USB 3.1 Automated TX Compliance Test Application
DPOFL-USBSSP-UP USB-TX to USBSSP-TX Upgrade
DPOFL-USB-TX TekExpress Automated USB 3.0 Solution
DPOFL-USB-TX-UP TEKEXP USB-TX to USB-TX Upgrade
DPOFL-VET Visual Trigger and Search
DPOFL-XGBT2 10GBASE-TekExpress Conformance and Debug Solution
DPOFL-XL010 Extended record length – 125 M Samples/Ch
DPOFL-XL020 Extended record length – 250 M Samples/Ch
DPOFL-XL050 Extended record length - 500M Samples each Ch, 1G Samples on 2 Ch (DX models only)
DPOFL-100G-TXE IEEE-802.3bm: CAUI4 and IEEE-802.3bj: KR4/CR4 100Gbps Transmitter Compliance (Requires Opt. DJA or DSA and DJAN)
DPOFL-10G-KR 10GBASE-KR/KR4 Compliance and Debug Solution (Requires Opt. DJA, SR-CUST)
DPOFL-40G-CR4 40GBASE-CR4 Debug and Automated Compliance Solution

 

 

 

 

Upgrade options

The DPO70000SX Series instruments can be easily upgraded after initial time of purchase. To upgrade an existing DPO70000SX, order DPO-UP and an option listed below. For example, DPO-UP DJAN.

Memory upgrades for DPO70000SX Series
XL510Standard Configuration to Option 10XL Configuration
XL520 Standard Configuration to Option 20XL Configuration
XL550 Standard Configuration to Option 50XL Configuration
XL1020 Option 10XL Configuration to Option 20XL Configuration
XL1050 Option 10XL Configuration to Option 50XL Configuration
XL2050Option 20XL Configuration to Option 50XL Configuration
Advanced analysis upgrades for DPO70000SX Series
Option Description
BITERR Hi Speed Serial Bit Error Detector (Requires Opt. ST14G)
DDRA DDR Memory Bus Analysis (Requires Opt. DJA)
DDR-LP4 LPDDR4 Memory Bus Electrical Validation and Analysis Oscilloscope Software (Requires Opt. DJA)
DJA Jitter and Eye Analysis Tools - Advanced (DPOJET)
DJAN DPOJET Noise, Jitter and Eye Analysis Tools
DP12 DisplayPort 1.2 Source Test Automation Software (Requires Opt. DJA and 5XL)
D-PHY MIPI D-PHY Transmitter Debug, Characterization and Compliance Test Solution (Requires Opt. DJA)
EDP Embedded Display Port (EDP) v1.4 TX Compliance Test Package
ET3 Ethernet Compliance Testing
FC-16G Fiber Channel - 16G Essentials (Requires Opt. DJA)
FRQCNT Frequency Counter-Timer
HDM HDMI 2.0 Advanced Analysis and Compliance Software for Tx tests
HDM-DS HDMI 2.0 Direct Synthesis for RX testing
HSSLTA High Speed Serial Link Training Analysis.
HT3 HDMI Compliance Testing
HT3DS HDMI Direct Synthesis for HDMI 1.4 (Requires Opt. HT3)
LT Waveform Limit Testing
MHD MHL Advanced Analysis and Compliance Software (Requires Opt. DJA and 2XL)
M-PHY MIPI M-PHY Transmitter Debug, Characterization and Compliance Test Solution (Requires Opt. DJA)
M-PHYTX M-PHY Automated Transmitter Solution
NBASET NBASE-T TekExpress Conformance and Debug Solution
PAM4 PAM4 Electrical Transmitter Analysis Software
PAM4-O PAM4 Analysis for optical signals
PCE3 PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJet Measurements Software (Requires Opt. Opt DJA)
PCE4 PCI Express Gen1/2/3 TekExpress Compliance/Debug Automation with DPOJET and SigTest Measurements Software, Gen 4 Debug with DPOJET Measurement Library (Requires Opt. DJA and Opt SDLA64)
Opt. PWR Power Measurement and Analysis
SAS3 SAS-3 Tx Compliance Test Application (Requires Opt. DJA and >2XL)
SAS3-TSG SAS-3 Automated Tx Compliance Test Application (Requires Opt. DJA)
SAS3-TSGW SAS-3 WDP Transmitter Measurements (Requires Opt. SAS3-TSG)
SATA-TSG SATA PHY/TSG/OOB Transmitter Tests for TekExpress
SATA-T-UP TEKEXP Upgrade to SATA PHY/TSG/OOB Transmitter Tests for TekExpress
SC SignalCorrect Cable, Channel, and Probe Compensation Software
SDLA64 New version of SDLA (64-bit)
SFP-TX SFP+ Compliance and Debug Solution (Requires Opt. DJA)
SFP-WDP SFP+ Compliance and Debug Solution ? WDP Measurement (Requires Opt. DJA & SFP-TX)
SR-EMBD Embedded Serial Triggering and Analysis (I2C, SPI)
SR-COMP Computer Serial Triggering and Analysis (RS-232/422/485/UART)
SR-ENET Ethernet Serial Analysis (10BASE-T and 100BASE-TX)
SR-PCIE PCI EXPRESS Serial Analysis
SR-USB USB Serial Triggering and Analysis
ST14G 8b10b Serial Trigger and Analysis
USB2 USB 2.0 Automated Compliance Test Application
USBSSP-TX USB 3.1 Automated TX Compliance Test Application
USBSSP-UP USB-TX to USBSSP-TX Upgrade
USB-TX TekExpress Automated USB 3.0 Solution
USB-TX-UP TEKEXP USB-TX to USB-TX Upgrade
VET Visual Trigger and Search
XGBT2 10GBASE-TekExpress Conformance and Debug Solution
100G-TXE IEEE-802.3bm: CAUI4 and IEEE-802.3bj: KR4/CR4 100Gbps Transmitter Compliance (Requires Opt. DJA or DSA and DJAN)
10G-KR 10GBASE-KR/KR4 Compliance and Debug Solution (Requires Opt. DJA, SR-CUST)
40G-CR4 40GBASE-CR4 Debug and Automated Compliance Solution
Spectral and modulation analysis upgrades for DPO70000SX Series
Option Description
SVEU SignalVu® Essentials - Vector Signal Analysis Software
SVA AM/FM/PM Audio Signal Analysis (Requires Opt. SVE, SVEH, or SVEU)
SVE SignalVu Essentials Vector Signal Analysis Software
SVM General Purpose Modulation Analysis (Requires Opt. SVE, SVEH, or SVEU)
SVO Flexible OFDM Analysis (Requires Opt. SVE, SVEH, or SVEU)
SVP Advanced Pulsed Signal Analysis including Measurements (Requires Opt. SVE, SVEH, or SVEU)
SVT Frequency and Phase Settling Time Measurements (Requires Opt. SVE, SVEH, or SVEU)
SV23 WLAN802.11a/b/g/j/p measurement application (Requires Opt. SVE, SVEH, or SVEU)
SV24 WLAN 802.11n measurement application (Requires Opt SV23)
SV25 WLAN 802.11ac measurement application (Requires Opt SV24)
SV26 APCO P25 compliance testing and analysis application (Requires Opt. SVE)
SV27 SignalVu Bluetooth Basic LE TX SIG measurements (Requires Opt. SVE, SVEH, or SVEU)
SV28 SignalVu LTE Downlink RF measurements (Requires Opt SVE)
SV30 WiGig IEEE802.11ad transmitter testing (Requires Opt. SVE, SVEH, or SVEU)
Other upgrades
SSD-SX (all 70kSX models except 70GHz) Spare Solid State Drive - Windows 7, preconfigured with OS, TekScope, and scope applications
DPOSX-SSD70G (only for 70 GHz models) Spare Solid State Drive - Windows 7, for 70GHz scopes preconfigured with OS, TekScope and scope applications
DPO7SXSSD-W10 DPO7SXSSD-W10 opt NOL
(all 70kSX models except 70 GHz, order both line items)
Spare Solid State Drive - Windows 10, for scopes already licensed and running Win10. Preconfigured with OS, TekScope and scope applications.
DPO7SXSSD-W10 DPO7SXSSD-W10 opt UP
(all 70kSX models except 70 GHz, order both line items)
Upgrade Solid State Drive - Windows 10, for scopes currently licensed and running Win7. Upgrades to Win10. Preconfigured with OS, TekScope and scope applications.
DPO7SXSSD70GW10 DPO7SXSSD70GW10 opt NOL
(only for 70 GHz models, order both line items)
Spare Solid State Drive - Windows 10, for 70 GHz scopes already licensed and running Win10. Preconfigured with OS, TekScope and scope applications.
Investment protection options

As signals get faster and new standards are developed, your investment in an DPO70000SX Series instrument can evolve with your needs. You can upgrade the bandwidth of the unit you own today. You can take advantage of DPO70000SX Series performance improvements by upgrading your existing unit to a new series. Contact your local Tektronix representative to discuss the full range of options available to ensure your DPO70000SX Series oscilloscope has the tools you need for your next project.

Power plug options
Opt. A0
North America power plug (115 V, 60 Hz)
Opt. A1
Universal Euro power plug (220 V, 50 Hz)
Opt. A2
United Kingdom power plug (240 V, 50 Hz)
Opt. A3
Australia power plug (240 V, 50 Hz)
Opt. A5
Switzerland power plug (220 V, 50 Hz)
Opt. A6
Japan power plug (100 V, 50/60 Hz)
Opt. A10
China power plug (50 Hz)
Opt. A11
India power plug (50 Hz)
Opt. A12
Brazil power plug (60 Hz)
Opt. A99
No power cord
Service options
Opt. C3
Calibration Service 3 Years
Opt. C5
Calibration Service 5 Years
Opt. D1
Calibration Data Report
Opt. D3
Calibration Data Report 3 Years (with Opt. C3)
Opt. D5
Calibration Data Report 5 Years (with Opt. C5)
Opt. G3
Complete Care 3 Years (includes loaner, scheduled calibration, and more)
Opt. G5
Complete Care 5 Years (includes loaner, scheduled calibration, and more)
Opt. IF
Upgrade Installation Service
Opt. R3
Repair Service 3 Years (including warranty)
Opt. R5
Repair Service 5 Years (including warranty)
Recommended accessories
Probes
DPO7OE1
33 GHz optical probe
DPO7OE2
59 GHz optical probe
P7633

33 GHz Low Noise TriMode® Probe

P7625

25 GHz Low Noise TriMode® Probe

P7520A

25 GHz TriMode® probe

P7720
20 GHz TriMode probe with TekFlex™ connector technology
P7313SMA

13 GHz TriMode® differential SMA probe

P6251
DC to 1 GHz, 42 V, differential probe (requires TCA-BNC adapter)
TCPA300/TCPA400 Series
Current measurement systems
P5200/P5205/P5210
High-voltage differential probes
P77DESKEW
P7700 Probe Deskew Fixture for SMA, solder-down, and browser connections
067-2431-xx
Probe Deskew Fixture for SMA or solder-down connections (up to 30 GHz)
067-0484-xx
Analog Probe Calibration and Deskew Fixture (4 GHz)
067-1586-xx
Analog Probe Deskew Fixture (>4 GHz)
067-1686-xx
Power Deskew Fixture
Adapters
TCA-1MEG

TekConnect® high-impedance buffer amplifier. Includes P6139A passive probe

TCA292D

TekConnect® to 2.92 mm adapter (33 GHz bandwidth)

TCA-BNC

TekConnect® to BNC adapter

TCA-N

TekConnect® to N adapter

TCA-VPI50
50 Ω TekVPI to TekConnect adapter
TCA75

23 GHz precision TekConnect® 75 Ω to 50 Ω adapter with 75 Ω BNC input connector

Signal Path Solutions
DPO7RFK1
3 dB, 6 dB, 10 dB, and 20 dB attenuator kit with 1.85 mm connectors, characterized to 70 GHz. Includes serial numbers and S-parameters for each attenuator.
DPO7RFK2
Includes the contents of the DPO7RFK1 plus a DC Block and 4 adapters for connecting to 1.85 and 2.92 mm fixtures.
DPO7RFK3
RF channel timing de-skew kit, 65 GHz, 1.85 mm. Kit includes a high performance power divider and 1.85 mm male-male adapter.
DPO7RFC1
Matched cable pair, 67 GHz, 1.85 mm, male-male, 24 inch, characterized to 70 GHz with provided S-parameters.
DPO7RFC2
Phase-stable coaxial cable, 67 GHz, 1.85 mm, male-male, 24 inch. Kit includes S-parameter data to 70 GHz.
DPO7RFC3
Phase-stable coaxial cable, 67 GHz, 1.85 mm, male-male, 36 inch. Kit includes S-parameter data to 70 GHz.
Other
016-2095-xx
Rackmount Kit
016-2102-xx
SSD mounting kit (front of instrument rackmount tray)
077-0076-xx
Service Manual, pdf on hard drive
016-2104-00
Transit Case (carbon fiber)
K4000
Oscilloscope Cart
DPO7AFP
Auxiliary Front Panel
DPO7USYNC 1M
1 meter UltraSync cable
DPO7USYNC 2M
2 meter UltraSync cable

 

 

 


DPO70000SX-Digital-Oscilloscope-Datasheet


The DPO70000SX Series offers the highest performance (50/59/70 GHz models) in Tektronix' Real Time performance oscilloscope portfolio.


DPO70000SX-Digital-Oscilloscope-Datasheet


The DPO70000SX Series also offers 23 GHz and 33 GHz models with 4 TekConnect inputs.

Last Modified: 2018-08-16 05:00:00
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