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DPO7000 Digital Phosphor Oscilloscope Series
High-performance Analysis for Complex Digital Designs
The DPO7000 Digital Phosphor Oscilloscopes contain the high waveform capture rate, advanced triggering, protocol decode and search capabilities needed to debug, characterize and analyze 1st generation serial data, RF, memory and general purpose devices.
Models in the DPO7000 Series:
| Model | Bandwidth | Sample Rate | Record Length | Channels | Starting Price* |
|---|---|---|---|---|---|
| DPO7354 | 3.5 GHz | 40/20/10 GS/s | 500/250/125 M | 4 | Select Your Country |
| DPO7254 | 2.5 GHz | 40/20/10 GS/s | 500/250/125 M | 4 | Select Your Country |
| DPO7104 | 1 GHz | 40/20/10 GS/s | 250/125/50 M | 4 | Select Your Country |
| DPO7054 | 500 MHz | 20/10/5 GS/s | 250/125/50 M | 4 | Select Your Country |
- Overview
- Application Notes
- Probes & Accessories
- Software Packages
- Videos
Features |
Benefits |
| FastAcq waveform capture | With >250,000 waveforms per second being displayed, quickly find intermittent events like a DDR2 Read or Write that can not be seen with a typical digital oscilloscope. |
| Pinpoint® triggering with low-speed serial trigger | Speed up debug of buses like RS-232, SPI and I2C through standards-specific trigger functions. |
| Bandwidths to 3.5GHz meet a variety of application needs | Accurate signal characterization of standards like 100 BaseT Ethernet at 500 MHz on up to DDR2 at 3.5 GHz. |
| High sample rate on all 4 channels simultaneously | Ensure accurate channel-to-channel evaluation and greater signal visibility for pinpointing timing anomalies with 10 GS/sec sample rate across all 4 channels. |
| Long record length on all 4 channels | Capture up to 500 mega points for accurate jitter measurement, meeting compliance requirements for standards like USB2.0. |
| Serial compliance and analysis options | Simplify compliance verification and debugging of communications system designs such as Ethernet and USB. |
| Large 12.1" XGA resolution display | Greatly improve visual identification of measurement tasks. |
- Green Electronics - How to make efficient (SMPS) Power Measurements
Today's most efficient switch mode power supplies are driving a level of power efficiency never seen before, supporting the demand for greener electronics. - Trigger at a New Level: Pinpoint™ Triggering
This document discusses some fundamentals of triggering, and how Pinpoint triggering takes triggering in real-time oscilloscopes to a new level. - Power Supply Measurement and Analysis with DPOPWR and TDSPWR3 Application Software
Read this application note to discover how Tektronix' DPOPWR power analysis software can help you meet the demands for longer battery life and "greener" designs. - An Introduction to Clock Recovery: Critical Aspects in Test and Measurements in High-speed Serial Designs
A primer on clock recovery, dealing with high-speed serial data rates doubling and tripling. - Power Measurements and Analysis: Challenges and Solutions
This paper looks at issues around essential measurements such as Turn-on/Turn-off losses, Safe Operating Area and Dynamic ON resistance. After a review of these measurement issues, the paper focuses on overcoming these challenges with the help of Tektronix Power Measurement and Analysis Solution. - Physical Layer Compliance Testing for HDMI Using TDSHT3 HDMI Compliance Test Software Application Note
This application note describes various tests that ensure validation, the challenges faced while testing complex HDMI signals and how oscilloscope-resident test software enables reliable results and automation to perform a wide range of tests. - Best Practices: High Performance Oscilloscopes DPO7000, DPO/DSA70000/B Series
This document provides a summary of Best Practices for using Tektronix DPO7000 and DPO/DSA70000 series products. - How Do You Get the Most Out of Your Tektronix Performance Oscilloscope
Understand the important signal acquisition and usability features of your oscilloscope to achieve quicker results. - See a World Others Don't: The Story Behind DPO
See how DPOs can save you hours in your debugging process. - TriMode™ Probe Architecture
The new Tektronix TriMode™ probe architecture changes the rules for signal acquisition, allowing you to work more effectively and efficiently; improving productivity by reducing setup time. - Serial Standards Guide
This guide will show you which oscilloscope to select based on your serial standard’s bit rate, with the performance level you need. - SignalVu Demonstration Guide (with Stored Signals): Bringing the Benefits of Vector Signal Analysis to Wideband Acquisitions
This demonstration guide is designed to help you understand the benefits of SignalVu when running on a DPO7000 or DPO/DSA70000 series digital oscilloscope using stored files. The guide is divided into four application sections: CW Tone, Wideband Radar, Hopping Waveforms, and Wideband Modulation - SignalVu Demonstration Guide (with Live Signals): Bringing the Benefits of Vector Signal Analysis to Wideband Acquisitions
This demonstration guide is designed to help you understand the benefits of SignalVu when running on a DPO7000 or DPO/DSA70000 Series digital oscilloscope with an AWG7000 Series. The guide is divided into four application sections: CW Tone, Wideband Radar, Hopping Waveforms, and Wideband Modulation - Choose the Right Platform for Your Jitter Measurements
This document will explain some essential jitter terms, and then go on to discuss jitter measurements and the tools best suited for evaluating and quantifying jitter, when working with serial data communication architectures. - The Case of the Closing Eye
This paper discusses a combination of time-domain and frequency-domain analysis that distinguishes which problems can be fixed with simple circuit modifications, clever tricks at the transmitter or receiver, from those that require major investment.
All DPO7000 models now come standard with four P6139A passive probes to give you instant signal access to your oscilloscope right out of the box.
Following is a list of common probes and accessories. Don't see what you need? Visit the Probes & Accessories Advisor to find the right probe for your application.
| Active Probes | ||
| TAP3500 | 3.5 GHz TekVPI active single-ended probe | Check List Price |
| TAP2500 | 2.5 GHz TekVPI active single-ended probe | Check List Price |
| TAP1500 | 1.5 GHz TekVPI active single-ended probe | Check List Price |
| P62431 | 1 GHz active probe | Check List Price |
| P62451 | 1.5 GHz active probe | Check List Price |
| Current Probes | ||
| TCP0150 | 20 MHz TekVPI™ AC/DC 150 A current probe | Check List Price |
| TCP0030 | 120 MHz TekVPI AC/DC 30 A current probe | Check List Price |
| TCP2021 | DC coupled current probe | Check List Price |
| TCPA300/ TCPA4001 |
AC/DC current measurement systems | Check List Price |
| Differential Probes | ||
| TDP0500 | 500 MHz TekVPI high-voltage differential probe | Check List Price |
| TDP1000 | 1 GHz TekVPI high-voltage differential probe | Check List Price |
| TDP1500 | 1.5 GHz TekVPI high-voltage differential probe | Check List Price |
| TDP3500 | 3.5 GHz TekVPI high-voltage differential probe | Check List Price |
| P62471 | 1 GHz differential probe | Check List Price |
| P62481 | 1.5 GHz differential probe | Check List Price |
| P63301 | 3.5 GHz differential probe | Check List Price |
| P62461 | 400 MHz differential probe | Check List Price |
| Passive Probes | ||
| P6139A | 500 MHz, passive probe | 4 included as standard accessory |
| P6101B | 1x passive probe 15 MHz | Check List Price |
| Low Capacitance Probes | ||
| P6158 | 3 GHz, 20x low C probe | Check List Price |
| High-voltage Probes | ||
| P5100/P6015A | High-voltage probes | Check List Price |
| P5200/ P5205/P52101 |
High-voltage differential probes | Check List Price |
1 Requires: a TPA-BNC adapter.
Analysis Support to Accelerate Your Design Validation
Get started analyzing with confidence using tools like Waveform Limit Testing and DPOJET Essentials right out of the box! These options, plus the Advanced Search and Mark capability, are now standard with every DPO7000 model.
With the DPO7000 real-time oscilloscope you also have access to a large number of different analysis and debugging packages, from the popular DPOJET Jitter Analysis tool to SignalVu™, a comprehensive RF Signal Analyzer suite. Tektronix' floating licenses maximize your test equipment investment by offering you the ability to move valuable software options from one instrument to another.
| DPOJET Jitter And Eye Diagram Analysis (Opt. DJA) |
Simplifies identifying signal integrity concerns, jitter, and their related sources and provides the highest sensitivity and accuracy available for real-time oscilloscopes. | Check List Price |
| DDR Memory Bus Analysis (Opt. DDRA) |
Automatically identify DDR1, LP-DDR1, DDR2, DDR3 and GDDR3 Reads and Writes and clearly see and analyze how analog anomalies are affecting your DDR/Memory. | Check List Price |
| Ethernet Compliance Test Solution (Opt. ET3) |
Receive full PHY layer support for 10BASE-T, 100BASE-TX, and 1000BASE-T. Analog verification, automated compliance software, and device characterization solutions are all included. | Check List Price |
| Prodigy PDU-R RS-232/UART Decode Application  |
Capture and decode the RS-232/UART signals for display in hexadecimal, binary, ASCII or decimal formats. | Request Contact |
| Prodigy PDI-R I2C Decode Application |
Convert a time-domain waveform into an I2C specific Hexadecimal format to display the Start, Address, Data, Acknowledgement, and Stop data. | Request Contact |
| Prodigy PDS-R SPI Decode Application |
Convert a time-domain waveform into SPI-specific data and display this information in the SPI format for MOSI and MISO. | Request Contact |
| Prodigy PDF-R FlexRay Decode Application |
Analyze the electrical characteristics of FlexRay signals using the eye diagram, time interval error and sync measurements. | Request Contact |
- Green Electronics - How to make efficient (SMPS) Power Measurements Video
Today's most efficient switch mode power supplies are driving a level of power efficiency never seen before, supporting the demand for greener electronics. - Debug Faster with the DPO7000 Series Oscilloscopes
Eight-minute Industry Comparison: Finding Runts and Glitches in Digital Signals - Measure with Tektronix: Triggering using Pinpoint Trigger System Video
Learn how to Trigger on complex events using a Pinpoint Triggering System. - Measure with Tektronix: Discovering Anomalies with DPX Acquisition Technology
Learn how to find anomalies quickly using DPX Acquisition Technology - and debug faster. - Understanding Noise Contributions from your Oscilloscope - Video
Jit Lim explains the the noise contributions from your oscilloscope including concepts like Frequency Response and Effective Number of Bits, for making the most accurate, high margin measurements. - Making Very Low Jitter Measurements Video
Jit Lim demonstrates how to use the DSA70000B Series performance oscilloscopes to make Rj measurements to less than 300fs for high-speed serial applications - Reducing Measurement Errors When Using Probe Video
Jit Lim demonstrates how to use the P7500 Series performance probes to make precision differential, single-ended and common mode measurements. - Isolating Meta-stable Glitches in a 1.25 Gb/s Data Stream
This video compares the ability of the Tektronix DPO7000, LeCroy SDA 6020 and Agilent 54855A to use glitch triggering to isolate narrow metastable signal pulses that may exist in a design. - Visualizing and Isolating Aberrant Behavior in a Complex Signal
This video compares the Tektronix DPO7000 series with the LeCroy SDA 6020 and Agilent 54855A to see their capabilities to observe infrequent signal details and then to trigger on specific attributes of the signal.
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