1. DPO/DSA/MSO70000 Series Tektronix Performance Oscilloscopes

2. Market Trends Wideband RF Serial Data Bandwidth High Speed
Communications
Carriers seeking more network capacity in transceiver design
Small timing margins leading to new jitter separation methods
Optical modulation analysis is a design requirement
Instrument must provide precise low-noise measurements
Wideband RF
Technologies
Meeting demands for more visibility/information
Deploying wideband chirp technology in advanced radars
Increase in use of microwave frequencies for communication links
Instrument must provide wider bandwidth & higher resolution
Serial Data Bandwidth
Increasing complexity driven by multiple faster standards
Movement from slower, wide, parallel to narrow, multi-Gb serial buses
Faster edges, slew rates are impacting PCB design
Instrument must provide wide bandwidth, fast rise times and tools for EQ/embedding
Before I begin, I’d like to talk abut some recent trends in the market place that are driving the need for high performance test equipment.
High Speed Communications – for long haul network capacity
Wideband RF – to meet needs for more information, faster
And
Serial Data Bandwidth – to support the growth in serial data bandwidth and complexity 2

3. Market Trends Emerging Customer Needs
“…venturing into 12G SAS and need to precisely characterize transceiver part rise time performance….”
SerDes Designer, Storage Systems Co.
“…working on 40GBASE-CR4 today and eventually 100GBASE-KR components. The 40 and 100 Gb/s signals are 4 lanes of 10 or 25 Gb/s….”
Ethernet System Architect, Semiconductor Mfr.
“…need to move to a higher bandwidth for this DP-QPSK project and I need 4 channels of low noise A to D….”
Optical Networks Designer, Telecommunications Mfr.
“…my low-level signals are mVpp and I need 5 mV vertical resolution measurements with low noise….”
Sr. Hardware Engineer, Networking Co.
Our customers have told us of their emerging needs. Note that in many cases it’s not just about high bandwidth, but other factors such as rise time and low noise.

4. DPO/DSA/MSO70000 Series Ultra-Performance Oscilloscope Capabilities
Discover
Capture
Search
Analyze
Accurate signal representation
Multi-channel acquisition without compromises
Highly visible waveform content
Complex signal event capture
Connectivity to DUT with high signal fidelity
Access to decoded serial bus traffic
Easy verification through millions of sample points
Long record length for timing analysis across clock cycles
Advanced jitter separation methods
Accurate Serial Data compliance tests
Fast data access for deeper analysis
Over the years, Tektronix has been consulting with design engineers who want to perform measurement tasks quickly and with confidence. With the Series it is more about building on these needs than simply providing a faster oscilloscope. We do this by addressing all facets of the measurement tasks at hand. Discover signals accurately, capture them with confidence, search quickly and analyze to solve problems faster.

5. Discover

6. Discover DPO/DSA/MSO70000 Series Performance Oscilloscopes
The World’s Most Accurate Oscilloscopes
The industry’s highest sample rate with 33 GHz bandwidth on 2 or 4 channels
Supports complete system testing of Differential Data & Clock measurements specified by leading standards organizations
Low noise floor for accurate margin testing
More margin to allow your test to pass
Increase your measurement margin with industry’s lowest jitter noise floor
Highest sensitivity with 6.25 mV/div
Enables accurate evaluation of Serial data rates up to 28 Gb/sec
The MSO70000 is the only performance oscilloscope capable of debug of today’s fastest digital designs
Up to 20GHz and 50GS/s on 4 analog channels simultaneously
16 digital channels with 80 psec time resolution
Ideal for complete system debugging DDR Memory
Sample rates supported
Real-time
4 channels: 50 GS/s
2 channels: 100 GS/s
Equivalent time
4 channels: 10 TS/s

7. Discover FastAcqTM to find elusive, intermittent events
See a World that Others Don’t
DPO/DSA/MSO70000 has the industry’s highest waveform capture rate at up to 300,000 Waveforms per Second
Enabling display of intermittent events that cause elusive failures
FastAcq gets to the root cause of event identification faster than any oscilloscope on the market

8. Discover DPO/DSA70000D Series
Industry leading combination of 33 GHz bandwidth and 100 GS/sec sample rate
-The 70000D series features the industry’s highest level of measurement accuracy for today’s fastest electrical signals across multiple channels
-By combining the industry’s best signal integrity and timing precision in a real time oscilloscope, we are giving our customers the breakthrough test instrumentation they need.
-Being part of the popular Series, these new instruments are fully compatible with our broad range of TekConnect probes and interconnects; including the popular Tri-Mode Probing Family.
This important announcement demonstrates our continuation along the path of innovation we have had in performance oscilloscopes. It is evident in the product’s leading edge technology centered on low-noise, highly integrated 8HP SiGe technology from our partner IBM.
The announcement on August 1 will also feature important updates to speed up DDR Memory testing and Serial Data Standards compliance. These new capabilities, like Visual Trigger, will also work with the other Windows scopes Tektronix sells and will be available in August.
Picture shown on this slides is an actual acquisition taken of a 25 Gb eye pattern
The World’s Most Accurate Oscilloscope

9. Discover Technology That Paces The Industry
High reliability and signal fidelity from Tektronix Engineering Excellence
DPO/DSA70000D Series - The most tightly integrated oscilloscope front-end
33 GHz and 100 GS/s performance packed in a single multi-chip module
Reduced part count and higher reliability through integration
Utilizes the reliable, fast SiGe 8HP BiCMOS Process from IBM
Behind every good innovation, is great technology at Tektronix. I’d like to share with you details about our exciting new technology to provide a deeper level of insight into the 70000D Series we’re introducing. What you’re looking at is the acquisition board on the 70000D. A brand new board developed for this product.
On the board is a spot for placement of the primary signal processing system for the scope. This is the “heart” of the new scope and where much of the technology innovation plays out. When development work began on the 70000D series; our engineers were tasked to design something with low noise performance and extremely reliable operation for long term use, to support the integrity that comes with choosing a Tektronix oscilloscope.
So, when designing the board and it’s interface with the new pre-amp and track and hold ICs, we wanted something that had low loss and low noise in the connectivity.
Next, because 30+ GHz frequencies lose effectiveness over PCB traces, Tektronix engineering design in a direct connection of high speed signals from the front end of the oscilloscope directly to the chip package – To maximize signal integrity, we used 100 GHz SMPM = SubMiniature Post-on (Mini) connectors placed very carefully on the same substrate as the ship itself.
To support good oversampling with a cleaner signal, Tek engineers implemented a leading edge track and hold interleave technology and placed it physically in close dimension to the pre-amps as shown here for good signal integrity.
We’ve implemented using an 8 way interleaved track and hold which as fewer interleaving errors than the 128 interleaved system or DBI-based systems implemented by our performance scope competitors.
Heat Sinks are carefully placed above the package to support our customers needs for higher reliability. These heat sinks were specially designed by Tektronix mechanical engineers to dissipate heat efficiently and improve the long term functioning use of the instrument in laboratory or manufacturing floor conditions.
As mentioned earlier, we’ve placed SMPM connectors directly on the substrate of the chip package. In our final implementation view here on the acquisition board, we’re showing the evidence of that 100GHz (GORE100) cabling that carefully and accurately as possible brings the signal from the front of the scope directly to chip package.
This allows Tektronix to manage noise and signal impedance levels. Extremely important for those low voltage, high frequency signals our customers are trying to measure accurately.

10. Discover Uncompromised Acquisition – Bandwidth and Sample Rate
Quickly Analyze up to 240Gb Signaling with 4 Channels of Performance
Supports Accurate Complex Optical Modulation Analysis up to 32 Gbaud
33 GHz real-time bandwidth with 100 GS/s on 2 channels
23 GHz real-time bandwidth with 50 GS/s on 4 channels
Low noise for high OSNR capable of 16-QAM Analysis
Enables a complete system view with 4 – 20 Channels of acquisition
Required for Serial Standards Analysis
Computer Bus Standards with Differential & Independent Clock Signals
Display Standards with multiple data lanes
Memory controller buses requiring logic qualified-triggering
Evaluate Crosstalk/Timing Skew between channels
For communication applications utilizing complex optical modulation, the DPO73304D provides several new capabilities to capture the I and Q components of the signal.
For systems operating at Gb/s, the component rates are 32 Gbaud or less. With the bandwidth and sample rate capabilities of the DPO/DSA73304D models, we cover baud rates of 32G and beyond. Note: Typical systems look for the scope’s analog BW to be ~.71*Baud Rate or GHz for 32Gbaud.
Customers looking for an instrumentation class complex optical receiver should know about the Optametra OM4106 Coherent Lightwave Signal Analyzer front end that works with our DPO70kC and DPO70kD.
HSS:
PCI Express is one such serial standard which defines a structure that allows multiple serial links (called “lanes”) to be added to a system in order flexible scaling of the data transfer capability.
Multiple data streams with independent embedded clocks need to be analyzed simultaneously for performance in real-world environments. This is especially critical for SerDes design validation.
Note: PCI Express & DisplayPort logos are trademarked property of PCI-SIG and DisplayPort Alliance

11. Discover Robust Support for Today’s HSS Technologies
Achieve compliance on 3rd and 4th Generation Serial Standard Designs
8 Gb/s
Industry’s Lowest Vertical Noise
Great signal-to-noise ratio with more margin to allow your test to pass
Maximum signal fidelity allows finding the smallest anomalies that might affect a design’s performance.
Accurate signal capture for debug & timing analysis across all 4 channels
FibreChannel, PCIe Gb/s
376fs Random Jitter
10G Ethernet – Gb/s
386fs Random Jitter
40 GbE, 100 GbE Gb/s
290fs Random Jitter
Gb/s
This is how measurements were performed…
PRBS7 Signals generated on a BERT
Used data rates of emerging industry standards
12.5 Gb/s: 40 GbE, 100 GbE
10 Gb/s: 10GB Ethernet
8 Gb/s: FibreChannel, PCI-E gen3
6 Gb/s: SATA Gen3, SAS-2
500 mV Peak to Peak
Test Configuration:
DPO72004B is the test instrument
Used Latest Firmware (4.3.3), SPC and Channel Deskew , 20 GHz bandwidth
Pseudo differential Math1=Ch1-Ch2, Horizontal scale 20 us/div, RL 10 M, SR 50 GS/s, Vertical scale 70 mV/div
Option DJA (DPOJET) used for measurements
Repeating pattern Rj/Dj separation, 127 UI
> 1 Million UI single shot captured and analyzed
1GHz ~ 1MHz Loop BW correlation: 6, 8, or 10 MHz Loop BW
2nd order PLL Clock Recovery
12.5 Gb/s

12. Capture

13. Capture Pinpoint® Trigger System puts you in control of event capture
The industry’s most comprehensive trigger system
Industry’s only 6.25 Gb/sec Hardware Serial Trigger with Built-in Bit Error Detection
Speeds root cause analysis of protocol-dependent events
Supports accurate capture of 3rd Generation Serial Standards like SAS and PCI Express
Available on any of the 4 channels for versatile use
Accuracy you can trust
Trigger jitter 100fsrms (typical)
<100ps glitch capture
1000’s of trigger combinations to find complex events
Accurate <100 ps glitch capture
Trigger info
Glitch resolution down to <100ps, but can only be set down to 300ps.
Thus, if the glitch trigger is set to the minimum setting “<300ps” a glitch as small as <100ps can be detected by the hardware.
Serial Pattern triggering:
The 6.25Gb/s serial trigger - selectable on any one of four lanes (channels).
New HF FILTER Mode for GLITCH, WIDTH & TIMEOUT TRIGGER
Currently Glitch, Pulse Width, and TimeOut Trigger modes only work up to 4 Gbps Data Rates.
The new “HF Filter” mode for Glitch, Pulse Width, and TimeOut Trigger allows the scope to be used on Data Rates up to 10 Gbps.
The new “HF Filter” mode control is independent on the A and B Sequence Events.
Visual Trigger can be used with the new “HF Filter” to help further isolate signal characteristics or events.
Trigger on a series of 0 and 1 without understanding their meaning. The user has to provide the translation of the character level into bit level
- first level of triggering
- requires foundational feature to trigger serial information. Analogous to pattern triggering for bus information
- unmatched performance of 5.0 Gb/s in this class of instrument
Adds insight
Higher bit support on the serial pattern is on the roadmap but not available now due to lack of commercial parts 13

14. Capture Visual Trigger speeds up challenging event capture
Qualifies events that no other trigger can detect
Fast signals with specific time or voltage variations
Ideal for demanding Serial or Memory Bus Verification
Separate out a DDR3 data eye in a multi-rank configuration
Detect 8GB/s bit sequence coming out of an electrical idle state on a serial bit stream
Visual Trigger Capabilities
New! Works with Pinpoint Trigger & Advanced Search/Mark for deeper qualification
Compatible with B event scan, ASM & enhanced triggering
Qualifier equation supports complex boolean logic
Most dynamic trigger system on the market
Add/delete/edit vertices with mouse or scope control
Define shapes for visual trigger areas that better match the waveform shape
Change the area colors to match the waveform color for easier multi-channel identification
Programmable interface for remote setup/control
Advanced Search/Mark & Visual Trigger
Visual trigger is a new option that utilizes shapes that could be hexagon, triangle, trapezoid, rectangle, square in shape on the scopes display. Once set u
The minimum pulse width and resolution are based upon the resolution of the current time/div and volts/div settings. The minimum width of a visual trigger area is one screen pixel. The number of pixels covering the total time of the record is 1000, so the minimum width is (total time)/1000.
Like the width, the height of the area depends upon the voltage range setting. The minimum width is 1 pixel. The voltage scale is 500 pixels high, so the minimum voltage height is (full-scale voltage)/500.
How repeatable is the visual trigger? The area coordinates are stored as floating point voltage and time values, so the waveform to area comparison is very repeatable. Trigger jitter on a 70kC scope with trigger path compensation on is <100 fs.
One idea is to use visual trigger to define a series of ones and zeros that the user is looking for and simulate a serial pattern trigger This software serial trigger would not have any limitations for data rate or a particular type of coding. the scope looks for any violations in or out of the shape to initiate a trigger event. Very useful for ddr or serial application examples.
Flexible Visual Trigger mimics waveform behavior for realistic triggers

15. Capture FastFrame™ provides deep insight and efficient memory use
Powerful insight into information you want to see, when you want to see it.
Locate the start of important signal activity and capture only that data into memory
Preserves valuable record length without sacrificing sample point resolution
Automatically save FastFrames for later viewing and analysis
New! 15-20% throughput improvement of wfms/sec in DPO70000D Series
Ideal for RF pulsed signal analysis used in Radar System Design
With Signal Vu, use an acquisition trigger to initiate FastFrame capture of pulses and/or chirps for up to 10,000 pulses
The fastframe acquisition mode in the DPO/DSA/MSO70000 Series uses the acquisition trigger to locate the start of incoming RF power and initiates the capture of only the pulsed energy data into the memory of the scope. The acquisition can be set to continue for the time length set by the user. This optimizes pulsed signal analysis while keeping sampling rates high and not eating through the memory of the instrument when there is the typical long duration between pulses. Fast Frame is a unique competitive advantage on the Series Oscilloscopes!
Pulse Histogram in SignalVu
built with FastFrame Acquisition
Intuitive Fast Frame Control Window

16. Capture TriMode™ access challenging test points with accuracy
Probe connection challenges solved with TriMode™
Connectivity options with high signal fidelity up to 30 GHz
Measurement convenience with probe length of 1.3 meters
Wide variety of connectivity/solder down options
A single probe-DUT connection for Serial Data
Perform differential and common mode voltage limit measurements with a single probe point
Flexible Signal Access Solutions for DDR Memory
Component Interposers
Analog Probing
DQ, DQS, Clock
Digital Probing
Address, Command, Control
TriMode™ high-speed circuit access CK
DQS0
DQ0 CS
CA1
CA2
CAn
Socketed DDR Component Interposer
Analog/Digital DIMM Probing

17. Capture iCapture™ - One Connection for Analog and Digital
MSO70000 Series – The industry’s only single-probe connection for analog and digital
Measurement flexibility while preserving signal access
No need to reconfigure probing
Quickly route any digital channel to any analog channel – Simultaneously
See both digital and analog views of the same signal
Validate signal connection and logic threshold
Check signal integrity and improve timing resolution C + - D0 A0
Digital Channels
Analog Channels
iCapture
Digital
2.5 GHz Analog
Full Bandwidth Analog
The Signal integrity of any of one of the chosen 16 inputs can be analyzed using the iCapture™ multiplexing feature, which allows any of the digital input signals to be internally routed to one of the scope’s four analog channels. Events such as initialization, power state changes, and command-bus cycle timing can also be analyzed using the bus-decoding features of the MSO. For example, in DDR; the MSO70K with ICapture allows designers to probe more signals on the DDR bus and to trigger on and view specific bus events.  Up to 16 digital channels can be used to view logic states of command & address signals such as RAS, CAS, WE, CE, CS etc.

18. Search

19. Search Advanced Search and Mark (ASM)
Find what you’re looking for .. FAST
ASM Speeds up search through long record length captures
Highlight important events
Navigate between events of interest effortlessly
Uncover events that are difficult to find in a large data set
Search & Mark Serial Buses
Find data patterns and control characters
New! Trigger system enables marking of all like trigger events in an acquisition
Speeds up verification of long PRBS pattern
Search DDR Read or Write bursts using DDRA
Automatically identify Reads and Writes
Make JEDEC conformance measurements with pass/fail results on every Read and Write burst
Event tables summarize all found events
Events are time stamped in reference to trigger
Results Table provides a listing view of all traffic from multiple buses
Table and zoom windows tied together
Event table with navigation capability
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 DPO/DSA/MSO70000 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 between the events of interest effortlessly and uncover that rare event you have been trying to find.
Search for glitches or runts, as well as transition rate, pulse width, setup and hold, timeout, window violations, or find any logic or state pattern on any number of channels. Any events found matching the search criteria are marked and placed in the Event table. The search can use positive/negative slopes or both on any channels.
“Mark all events” capability built in

20. Search Serial Bus Decoding and Search
Gain deeper insight into your system's behavior
Serial Bus Decode
View control and data packets
Quickly search and find protocol errors or invalid bus sequences
Views correlated to analog views
Support for Industry Standard Buses
PCI Express, 8b/10b, I2C, SPI, RS-32/422/485/UART, MIL-STD-1553B, CAN, LIN, Flexray, USB, HSIC, 10BASE-T, 100BASE-TX, 10GBASE-KR, and MIPI® D-PHY (DSI and CSI)
Bus Decoding and Triggering
Verifying your system operation often requires the ability to see specific
system states on a key bus such as the DDR SDRAM interface. The
DPO/DSA/MSO70000 Series includes parallel and serial bus decoding
that provides deeper insight into the system's behavior. Using the bus
triggering capability of the DPO/DSA/MSO70000 Series to isolate the exact
state needed or find invalid bus sequences is as easy as defining the bus
and choosing the bit pattern or symbolic word that describes the desired
state. In addition, serial bus decoding for 8b10b encoded data, I2C, SPI,
RS-232/422/485/UART, USB, and MIPI® DSI and CSI2 buses enables you
to identify where control and data packets begin and end as well as identify
subpacket components such as address, data, CRC, etc.

21. Search DPO/DSA/MSO70000 Serial Bus Decoders Available
Aerospace Serial Triggering & Analysis (opt. SR-AERO)
Bus decode support for the MIL-STD-1553B Serial Bus
Automotive Serial Triggering & Analysis (opt. SR-AUTO)
Bus decode support for CAN, LIN & Flexray Serial Busses
Embedded Serial Triggering & Analysis (opt. SR-EMBD)
Bus decode support for I2C & SPI Serial Busses 10/100BASE-T Ethernet Serial Analysis (opt. SR-ENET)
Bus decode support for Ethernet Serial Busses
Computer Serial Triggering & Analysis (opt. SR-COMP)
Bus decode support for RS-232, RS-422, RS-485 & UART Serial Busses
MIPI D-PHY Serial Triggering & Analysis (opt. SR-DPHY)
Bus decode support for MIPI D-PHY (DSI/CSI interface) Serial Busses
PCI Express Serial Triggering & Analysis (opt. SR-PCIE)
Bus decode support for PCI Express Serial Busses
USB Serial Triggering & Analysis (opt. SR-USB)
Bus decode support for USB Serial Busses
Custom Serial Decoding (opt. SR-CUST)
Custom Serial Bus decode kit for developers

22. Analyze

23. Analyze DPOJET - A flexible Jitter & Timing Analysis Toolset
The industry standard for serial data testing
Eye Rendering for any serial signal type
Real-time acquisition of data streams
Flexible software clock recovery
Serial signal quality analysis
Mask and measurement limit testing
Advanced Jitter Analysis to find root cause
Separate and measure Bounded, Uncorrelated Jitter (BUJ) for better ID of crosstalk-based jitter
Widely-accepted jitter analysis techniques
Clock-Data measurements
Frequency domain jitter filtering
Perform up to 99 measurements on a single acquisition
Includes rise time, fall time, amplitude, period jitter, histograms, PDF’s, etc
Standard-specific measurements speed up analysis
PCI Express, USB, Ethernet, etc.
Output to Excel/MATLAB for reporting, analysis
Transmitter Testing Results & Plots
Re: DPOJET Eye rendering:
Single trigger event coupled with long record length to populate statistical database
Serial signal quality analysis includes Amplitude, Timing, Jitter
Mask Testing – Tektronix Invented this!
Broadest range of standards supported
Advanced Jitter Analysis
Still only T11.2 (FibreChannel) recognized method, Tektronix patent
Long record analysis techniques required!
Parallel and serial bus jitter analysis
Setup wizards for easy setup
Provides tools for Spec validation and
Free Run, Worst Case Logging, Statistical Analysis, Report Generation
BUJ Jitter Separation 23

24. Analyze Serial Data Link Analysis Visualizer – Tools that open the eye
System Simulation and Analysis for SerDes, Early Silicon
SDLA Visualizer combines acquired waveforms with channel models to:
Visualize effects of varying pre-emphasis, equalization, and/or channel characteristics.
View effects of transmitter pre-emphasis on the signal as seen by the receiver
Evaluate Receiver Equalization outcomes
Vary application and configuration of DFE, FFE, and/or CTLE
Process acquired waveforms with IBIS-AMI Receiver Equalization
Analyze effects of channel variations on received signals
SDLA performs measurement Channel De-Embedding
Manages removal or addition of fixture and cable effects from acquired signals
Ensure that data can be reliably sent and received without errors
Data transmission introduces losses and impairments
Equalization partially offsets channel impairments
New Standards require to take into account channel effects when testing
Serial Data Link Analysis
Analysis of the complete Link and Emulation of the waveform at the receiver transmitter equalization (Emphasis), Fixture de-embedding, channel impairments (S-Parameter), DFE and FFE Receiver Equalization.

25. Analyze Application Development Kit (ADK)
Build your own analysis toolset faster
ADK components
Ability to customize measurements in DPOJET
Access to Scope UI widgets & icons
Template Apps for MATLAB, LabView
Coding and implementation examples
Access to Tek licensing mechanism
DataStore Public Interface
Direct user access to waveform sample data
Uses callback method in place of (slower) polling method
The ADK is being publicly announced along with the “D”-series Performance Scopes on 1 August; however the full set of ADK tools will be deployed during Q3 and Q4 of The first release (mid-Sept) will include the DPOJET Custom Measurements and also Read-only access to the Data Store Public Interface. The remaining elements, including the GUI tools and Templates, will become available later in the calendar year (Q )
There is no charge for the ADK tools. Customers who have “D” series scopes, or 64-bit “C” series scopes running WIN7 will automatically get some of the ADK tools built-in with the scope firmware, starting with version 6.2. The scope firmware should also be available as a download in the Software Finder on in mid-September. The DPOJET Custom Measurements feature will be available starting with DPOJET Release 3.5 (in the same timeframe.)

26. Analyze Customize Analysis: Tektronix’ Application Development Kit
Solution Elements
User Objective
Custom analysis inside the instrument GUI
Application Developer’s Kit (ADK)
Custom Analysis Extension with MATLAB
Custom DPOJET Measurements
e.g. custom filtering
Extended processing of data or results
User Defined Math Functions
Data Store Public Interface
e.g. analysis & plotting
Create a complimentary application
GUI Toolkit
Tektronix Licensing Interface
Application Templates
e.g. in-house tool
Automate a measurement process
MATLAB with Instrument Control Toolbox
Others
e.g. collect measurements

27. Analyze Create Custom Math Extensions with MATLAB
Extend built-in math system with custom MATLAB scripts
Custom functions added to Math Setup control window
Return processed channel data to math waveform
High speed data path (DataStore Interface equivalent)
Signal processing, analysis or visualization
Acquire
Process
Display
Tektronix Oscilloscope
MATLAB and
Instrument Control Toolbox

28. Analyze DPO/DSA/MSO70000 Analysis Tools Available
DPOJET Jitter And Eye Diagram Analysis (opt. DJA)
Eye diagram, jitter, and timing analysis for real-time oscilloscopes, including BUJ-based analysis
DDR Memory Bus Analysis (opt. DDRA)
DDR1, LP-DDR1/2, DDR2, DDR3 and GDDR3/4 read/write qualification, debug and compliance of JEDEC measurements
DiiVA Compliance Test Solution (opt. DiiVA)
Fully automated compliance testing for DiiVA devices
DisplayPort Compliance Test Solutions (opt. DP12, DP-SINK)
Four lane simultaneous testing , detailed test report, and margin analysis for DisplayPort 1.2
Fully automated compliance testing for Sink devices
Ethernet Compliance Test Solutions (opt. ET3, 10G-KR, XGbT, SFP-TX, SFP-WDP)
Full PHY layer support for Ethernet variants 10BASE-T, 100BASE-TX, 1000BASE-T, and 10GBASE-T
Fully automated compliance test for 10G-KR, SFP+
MIPI® D-PHY and M-PHY Compliance Test Solutions (opt. D-PHY, DPHY-TX, M-PHY)
Verify D-PHY and M-PHY specifications by rapidly characterizing sources of jitter and signal integrity
Fully automated compliance test for D-PHY transmitters
HDMI Compliance Test Solutions (opt. HT3, HT3DS, HEAC)
Fully automated compliance test support for CTS1.2, 1.3c, 1.4, HEAC Source, Cable and/or Sink

29. Analyze DPO/DSA/MSO70000 Analysis Tools Available (cont’d)
MHL Compliance Test Solution (opt. MHD) Measurement analysis of MHL Compliance Test for Mobile-HDMI standard
MOST Compliance Test Solution (opt. MOST) Electrical Compliance & Debug Test for MOST50 & MOST150 Automotive Busses
PCI Express CEM Measurement Analysis (opt. PCE3)
Comprehensive solution for rev 1.0/1.1/2.0/3.0 CEM and System test points as well as debug
Power Measurement and Analysis Software (opt. PWR) Measurement and analysis of switching power supply components/systems
QuickPath Interconnect Test Solution (opt. QPI) PHY testing of Intel® QPI V1.1 interconnects
Serial Data Link Analysis Visualizer (opt. SDLA64) Analysis of transmitter emphasis, channel embed & de-embedding, FFE/DFE adaptive equalization
SignalVu™ RF Signal Analysis Solutions (opt. SVA, SVE, SVM, SVO, SVP, SVT) Real-Time RF Signal Analysis of wideband signals, including Audio (AM/FM/PM), Frequency, Pulse, Vector & OFDM-based signals

30. Analyze DPO/DSA/MSO70000 Analysis Tools Available (cont’d)
SATA/SAS Automated Compliance Test Solutions
(opt. SAS3,SAS-RSG, SAS-TSG, SAS-TSGW, SATA-TSG, SATA-RSG)
Automated testing for SATA Gen1 and SATA Gen2 and SAS6G defined test suites
Thunderbolt Automated Compliance Test Solutions (opt. TBT-TX)
Automated characterization, debug & compliance testing for Thunderbolt-based transmitters
UHS II Compliance Test Solution (opt. UHS2) UHS II Host Tx and Device Tx compliance testing
USB2.0/USB3.0 Compliance and HSIC Test Solution
(opt. HSIC, USB, USB3, USB-RMT, USB-TX)
USB compliance testing including automated probe deskew and receiver test setups for USB2 and SuperSpeed USB3 and HSIC

31. DPO/DSA/MSO70000 Series The World’s Most Accurate Oscilloscopes
Discover
Capture
Search
Analyze
10 ps timing resolution and 9 ps rise time for pulse characterization
Low noise and jitter provide more measurement margin
6.25 mV/div sensitivity for low amplitude signaling
Up to 20 Channels of Acquisition (MSO Series)
Visual Trigger for user- defined capture of complex signals
Serial trigger and bit error detection for 8b/10b encoded data
FastAcq for capture of Infrequent anomalies
TriMode probes for high fidelity with low loading
Advanced Search and Mark searching through 8b/10b bus events for fast verification
Up to 250MS record length for jitter trend analysis
DPOJET – BUJ measurements for crosstalk-related debug
DataStore – Faster access to 3rd Party analysis tools
DPOJET One touch debug of timing failures
SignalVu for analysis of complex modulation and RF signals
Over the years, Tektronix has been consulting with design engineers who want to perform measurement tasks quickly and with confidence. With this launch it is more about building on these needs than simply providing a faster oscilloscope. We do this by addressing all facets of the measurement tasks at hand. Discover signals accurately, capture them with confidence, search quickly and analyze to solve problems faster.
We help them discover signals of interest with the most accurate oscilloscope acquisition system on the market…
They can capture using a variety of methods including the new Visual Trigger, a very intuitive and accurate triggering approach that is tightly coupled with the powerful Pinpoint Trigger system. We’ll show you more on a future slide about this compelling new option being introduced in August.
Once we capture, we can search through 8b/10b patterns quickly using a newly integrated event table that points directly into the record stored in the oscilloscope. This is something else we’ll be discussing in more detail coming up.
And we can analyze signals of interest using our own popular DPOJET now with a new set of jitter measurements and with third party packages like MathWorks’ MATLAB using a faster pipe between the scope and these popular analysis packages.

32. Tektronix DPO/DSA/MSO70000 Series Oscilloscopes
Model Number
Description
DPO70404C
4 GHz Digital Phosphor Oscilloscope
DPO70604C
6 GHz Digital Phosphor Oscilloscope
DPO70804C
8 GHz Digital Phosphor Oscilloscope
DPO71254C
12.5 GHz Digital Phosphor Oscilloscope
DPO71604C
16 GHz Digital Phosphor Oscilloscope
DPO72004C
20 GHz Digital Phosphor Oscilloscope
DPO72504D
25 GHz Digital Phosphor Oscilloscope
DPO73304D
33 GHz Digital Phosphor Oscilloscope
DSA70404C
4 GHz Digital Serial Analyzer
DSA70604C
6 GHz Digital Serial Analyzer
DSA70804C
8 GHz Digital Serial Analyzer
DSA71254C
12.5 GHz Digital Serial Analyzer
DSA71604C
16 GHz Digital Serial Analyzer
DSA72004C
20 GHz Digital Serial Analyzer
DSA72504D
25 GHz Digital Serial Analyzer
DSA73304D
33 GHz Digital Serial Analyzer
MSO70404C
4 GHz Mixed Signal Oscilloscope
MSO70604C
6 GHz Mixed Signal Oscilloscope
MSO70804C
8 GHz Mixed Signal Oscilloscope
MSO71254C
12.5 GHz Mixed Signal Oscilloscope
MSO71604C
16 GHz Mixed Signal Oscilloscope
MSO72004C
20 GHz Mixed Signal Oscilloscope
22 models in this powerful performance oscilloscope family

33. Tektronix: The World’s Standard in Oscilloscopes
8 out of 10 engineers rely on Tektronix to help them speed debug of tomorrow's designs

34. Thank you! Questions?

35. Backup Slides

36. High Speed Communications
Impact and Importance
Exponential growth in bandwidth demand
Long range data networks are struggling to keep pace with video on demand, video conferencing “face-time”
Demands on Engineering Community
Complex data transmissions and lower margins leading to new jitter separation methods
Optical Modulation Analysis becoming a design requirement for 4x25G and higher
Opportunity for Innovation
Highly accurate timing measurement capability
Convergence and backward compatibility
GbE

37. Wideband Technologies
Impact and Importance
Increasing use of bandwidth to achieve data throughput
Increasing use of imaging radar technology
Demands on Engineering Community
Use of near-field wideband communications
Use of microwave frequencies and beyond for communication links
Use of wideband chirp technology in advanced radars for better resolution
Opportunity for Innovation
Wider bandwidth and higher resolution instruments
Miniaturization, SW; Analog, Digital, and RF/spectrum coming together with direct analysis at microwave frequencies

38. Serial Data Bandwidth Impact and Importance
Shift from slower, wide, parallel buses to narrow, multi-Gb HSS buses
Applications that have been “just around the corner” are finally becoming reality
Demands on Engineering Community
Proliferation of standards means increasing complexity
Faster edges, slew rates impacting EDA modeling, packaging, PCB design, T&M tools
Opportunity for Innovation
Wider bandwidth, faster test tools, embedded test technologies, and Design-for-Test (DfT)
HSS compliance test packages

39. Analyze Group License Management for Oscilloscope Analysis Tools
Share DPO/DSA/MSO70000 Oscilloscope Software Options
Across your workgroup
International support available for global teams
Move licenses from instrument to instrument
Web-based tool for license management
Choose from over 30+ Analysis Packages
Maximize company’s investment
Enable your workgroup’s productivity
The new floating license capability for Tektronix’s performance oscilloscopes provide:
The ability to share and to track option licenses among multiple scopes.
The floating license product is purchased like an option and provides the capability to use the option on multiple scopes. The floating licenses are a one time purchase that can be kept forever and used on future Tek scopes that the customer purchases.
An on-line license management system that is set up and managed by Tektronix’ IT dept. This license management server is available from any computer with a web browser and an internet connect and can be accessed 24 hours a day.
What scope options are available with floating licenses? The answer is almost all options that are available on the DPO7k and 70k scopes are also available with floating licenses. Even HW options like the longer record lengths and high speed serial triggering are available in floating license form. As we add options in the future, the list will continue to grow.
Floating licenses maximize the customers by letting them move the license across their scopes. They provides the customer with control regarding who can access and use the floating licenses. Further Tek’s server provides tracking information for the company’s license.
The floating licenses are reliable and can be accessed anytime they are needed from a web browser by logging into the Tek server.

40. DPO/DSA/MSO70000C Series A New Level of Performance Oscilloscope
Introducing the DPO/DSA/MSO 70kC series of performance oscilloscopes. With the C series introduction we’re completely refreshing the performance scope portfolio and we’ll take our leadership on 4 channels in bandwidth and sample rate to a new level with the industry’s highest sample rate on 2 channels with 100 GS/s.
The table lists our highest performance specs for the 70kC line of products at 12.5 GHz BW and above.
DPO/DSA/MSO 71254C
DPO/DSA/MSO C
DPO/DSA/MSO C
Note
Bandwidth
12.5 GHz
16 GHz
20 GHz
On 4 channels
Maximum Sample Rate
100 GS/s
On 2 channels
Record Length
250M Optional

41. DPO/DSA/MSO70000C Series A New Level of Performance Oscilloscope
We’re upping the sample rate on our highest BW instruments and are revamping the 70k platform to give it better performance in the computing system and a fresh new look on the front panel.
DPO/DSA/MSO 71254C
DPO/DSA/MSO C
DPO/DSA/MSO C
Note
Improved Time Base 
All models
New Compute Platform

42. The World’s First Performance Mixed Signal Oscilloscope
MSO70000C - The Industry’s First Performance Mixed Signal Oscilloscope Leveraging Tektronix Technology Leadership
Most Accurate Logic Analyzer
Featuring 20psec Timing & iCapture
Fastest Real Time Oscilloscope
Featuring 20 GHz on SiGE
Taking the best of both world’s. Leveraging our leadership in Performance Oscilloscopes; where have consistently met customers’ needs for additional bandwidth and leveraging our strengths in Logic Analysis with an emphasis on the most accurate logic analyzer – we have come up with a new offering ; The MSO70000 – The world’s first performance mixed signal oscilloscope
MSO70000C
The World’s First Performance
Mixed Signal Oscilloscope

43. A New Class of Precise Timing Resolution
DISCOVER
MSO 70000
Agilent MSO9000
&
LeCroy MS500
TLA7BB4 Timing
500ps
156ps
80ps Gs/s, up to 250 Mpoints
Accuracy without compromising record length
On both analog and digital channels
Unmatched timing resolution & ability to see long term trends with critical insight
Important point.
With an MSO, it’s important to know that high timing resolution across a long record enables a more distinct view of the digital channel performance without taking away the horizontal timescale of the Analog channels which are typically sampled at a much higher rate (ie, shorter cycle for same record).
MSO70K is way ahead of the two closest competitive solutions. Keep in mind that we’ve added the TLA7BB4 because its considered the defacto standard for digital performance. But remember that TLA’s have MagniVu allows higher timing resolution but only on short record length acquisitions. MSO70000 provides 80 ps resolution across full record length.

44. Precise Timing Correlation and Superior Signal Fidelity
DISCOVER Δt
MSO70000 delivers critical system timing performance
Analog and digital acquisitions on a common clock
The industry’s lowest vertical noise, highest ENOB and flattest frequency response
Great signal-to-noise ratio with more margin
Maximum signal fidelity finds critical signal anomalies affecting designs
This is a critical differentiation point to be making from our competition.
The signal integrity of the digital/analog timing combined with the outstanding (derived from DSA70KB) acquisition system makes this a MSO above all MSO’s. Against LeCroy; there is no compare. First of all on the digital timing side, the external box for MSO’s runs on a separate reference clock; leading to potential timing correlation issues beyond 100’s of picoseconds. On the analog side, their 20 GHz+ bandwidth is performed using DBI, which cuts channels down from 4 to 2 on the instrument; curtailing it’s ability to be a multi-channel MSO.
On the Agilent front, the noise performance of the MSO9000 is suspect on the analog side with baseline noise and known harmonic distortion noise (not spec’d by AT but observed by Tek/PSPL on a rented unit)
Very low noise floor in the MSO70000 series leads to a more realistic assessment of signal jitter performance. This leads to the most accurate depiction of signal timing in the industry today.

45. Access to Tightly Spaced Test Points
CAPTURE
Industry’s only differential active probes for MSOs
Excellent signal fidelity
Industry’s best versatility in access points
Device Leads
Solder-in
VIA’s and Traces
BGA packages
Square Pins
Reduces fixturing costs and development time
We realized that probing your signals is critical to your success and we’ve worked very hard on the signal access that is significantly better than what is on the market today.
Leveraging expertise/knowledge gained from our P7500 probe to bring new differential logic probing capability to the Tek family of Logic Probes is very important. We recognize the importance of performance embedded designers (and memory designers) to accurately probe signaling on digital busses.
Another issue is connectivity. With modular tips available on both logic and P7500 Trimode; Tek is making a commitment to work with customers on their unique board probing challenges. (show the Logic Probe tip kit to editors now).

46. Logic Triggering and Qualification
CAPTURE
Pattern
Match
Analog
Trigger
System
Ch1-4
D0-D15
Clock
Digital
16 channel logic trigger
Enhances exclusive Pinpoint Triggering capability
Enables customers to qualify events of interest more closely
We’ve added to the already great Pinpoint triggering system with addition of logic-qualifiers. These can be used in trigger setup to query the digital channels for a pattern of logic states/bus sequences and then perform a mixed analog/digital trigger with those patterns are discovered.
Great for DDR or Serial bus signal validation.
Capture and Measure Only What Matters

47. User-Defined Parallel Bus Decode and Display
SEARCH
Unmatched visibility of system state
Display up to 16 separate buses
Using logic, analog and math channels
Formats
Hexadecimal
Binary
User Defined
symbols
A very flexible feature was added to assist people who are designing systems that include proprietary or legacy parallel busses in addition to higher-performance serial bus architectures.
Basically, an engineer can define the bus structure parameters with a simple lookup table (like FIR filter tables) and place it with the scope, then the MSO will display captured data tied to that bus traffic in a hex, binary or symbol view. It’ll appear as another channel on the TekScope display. (Sort of like the MSO4000 bus displays).
Very flexible. Easy to view. Nice usability feature.

48. Popular Serial Bus Decode, Display and Triggering
SEARCH
I2C, SPI Bus Support
Decoded upon acquisition
Conveniently displayed on Tek Scope
Bus-intelligent Triggering
Included as a n/c option, EMBD – this is really nice for embedded systems that contain these prevalent popular serial busses. These are setup with decoding already installed. Works very similar to the MSO4000 version. Nice, convenient to use.

49. Symbol File Examples MSO Symbol File TLA Symbol File
MSO70000 Reads the TLA Symbol File
Ignores text and background
color directives

50. Probe Deskew Fixture
Provides time aligned fast edges for 17 simultaneous probe connections
Square pin connections for logic probes
Solder-down connection for analog probes
P75TLRST Probe Tip Included
Two Functions
Align display of logic channels and analog channels
Measures alignment of analog and digital paths for logic pattern triggering

51. New Compute Platform in DPO/DSA/MSO70000C
Faster Compute platform
Faster processing of longer data records, Jitter, noise, BER measurements and statistics
Intel Core 2 Duo Processor
E8400 chip set
8GB DDR2-800 RAM
PCI Express based backbone
The 70kC series products also have a redesigned compute platform. This platform provides the ability to process data faster particularly for larger data sets where the delay in processing is very evident on our older A and B series instruments.
The details of the platform are its use of a dual core Intel processor with chipset that includes integrated graphics capability that we use for the scope application. We have also increased the RAM on the motherboard to 8GB for handling the larger data sets, running multiple applications simultaneously.
The backbone that connects the scope’s acquisition system to the compute system is now PCIe vs. the PCI backbone that we’ve used until now.
All of these HW changes were incorporated in the MSO70k products when they were introduced last year, but now we’re bringing that new HW and the OS update to all products from the DPO7k to the DSA70k.
What are some of the other benefits of having a faster processor on a scope?
51 DPO/DSA/MSO70000 Series Copyright © Tektronix W

52. DPO/DSA/MSO70000C Powerful Triggering
Enhanced trigger
Stabilizes position
Reduces trigger jitter
Increases trigger bandwidth to instrument bandwidth
Works with most Pinpoint Trigger types
Operates in most acquisition modes 52

53. TekLink Time-aligned Acquisitions between Channels of Multiple Scopes
4 channels or more associated with a single trigger event
Connect two or more instruments using a TekLink hub and cables.
TekLink connection status is displayed in the horizontal readout.
Enable a trigger and the other instruments are automatically set to receive the trigger.
Select AND or select OR to combine all triggers before triggering all instruments
To align the MultiScope Trigger, press the Align button.
When MultiScope triggering is enabled, it displays in the trigger readout.
The B series is introducing a new capability of the DPO and DSA models to link channels together and be triggered from a single source with the result of multiple channel, time aligned acquisitions.
Using a Tektronix-exclusive communication technology called TekLink, one scope can connect to another so as to trigger up to eight channels, or using the TekLink Hub, you can link five scopes together. This new capability will enable a trigger on the first scope and and the other instruments are automatically set to receive it. Logical trigger conditions using AND or OR allow you to combine all triggers before triggering all of the instruments 53

54. TekLink Multi-Scope Trigger: Easy, Fast Triggering on Many Channels
TekLink 4x Hub

55. DPO/DSA/MSO70000C Series Internal Noise Comparison
Noise performance of the MSO72004C with a signal applied
The comparison shows the noise reduction seen when the instrument is set to 100GS/s as compared to 50GS/s.
For this test, the instrument was set to a full-scale voltage setting of 500mVFS (50mV/div).
Noise with the 100GS/s setting is approximately 20% lower than with the 50GS/s setting
In this plot we show the reduction in noise between 50 and 100 GS/s operation across the full frequency band of a 20 GHz instrument.
The curves on the graph represent the internal random noise of the scope as a percent of full scale using two different real time sample rates. The 100 GS/s light blue curve shows approximately 20% lower internal noise than the 50 GS/s data plotted with the dark blue curve.
Internal noise reduction is a key factor in providing additional margin for measurements of high speed data.

56. DPO/DSA/MSO70000C Series Internal Noise Comparison with Non-B Series
Noise performance of the MSO72004C with a signal applied
The comparison shows the noise reduction seen when the instrument is set to 100GS/s as compared to 50GS/s.
For this test, the instrument was set to a full-scale voltage setting of 500mVFS (50mV/div).
Noise with the 100GS/s setting is approximately 20% lower than with the 50GS/s setting
Let’s build on this comparison by adding an internal noise curve for a non-B series DPO The noise reduction of the C series is dramatic relative to the original DPO72004 models.

57. P7630 Low Noise TriMode™ Probe
Key Features
30 GHz Bandwidth
Lowest noise high bandwidth differential probe in the industry
TriMode™ Probe functionality
Make single-ended, differential, and common mode measurements with a single setup
Coaxial inputs up to 30 GHz for HSS testing
Termination Voltage Control
Terminate the probe input into voltages other than ground for serial data standards that have high common mode voltage levels like HDMI
Independent control of A & B inputs
Automatic Probe Tip ID
Prevent confusion and mistakes with the oscilloscope automatically identifying the probe tip to ensure the correct DSP filters are used

58. P7630 Connectivity P76CA-292C 2.92mm Coaxial Adapter with Cables
P76CA-SMP
SMP Coaxial Adapter with Cables
P76CA-292
2.92mm Coaxial Adapter
P76TA
P7500 Tip Adapter

59. DPO/DSA/MSO70000C Key Characteristics of the P7500
P7513A
P7508
P7506
P7504
Bandwidth (Typical)
>20 GHz, A-B mode
>18 GHz, P75PDM, Other modes
> 16 GHz
> 13 GHz
> 8 GHz
> 6 GHz
> 4 GHz
Rise Time
(10%-90%) (Typical)
<27 ps, A-B mode
<29 ps, Other modes
< 32 ps
< 40 ps
< 55 ps
< 75 ps
< 105 ps
(20%-80%) (Typical)
<18 ps, A-B mode
<20 ps, Other modes
< 24ps
< 28 ps
< 35 ps
< 50 ps
< 70 ps
Differential Input Range
± V (5X)
± 1.6 V (12.5X)
± 0.75 V (5X)
± 1.75 V (12.5X)
Noise
<33nV/√Hz(5X)
<48nV/√Hz(12.5X)
CMRR, (Differential Mode)
>60dB at DC
>40dB at 50 MHz
>30dB at 1 GHz
>20dB at 10 GHz
>12dB at 20 GHz
>30dB to 1 GHz
>20dB to 8 GHz
>15dB to 16 GHz
>20dB to 7 GHz
>15dB to 13 GHz
>25dB at 4 GHz
>20dB at 8 GHz
>25dB at 3 GHz
>20dB at 6 GHz
>28dB at 2 GHz
Cable Length
1 meter
1.3 meter 59