Digital Serial Analyzer Sampling Oscilloscope

DSA8200 Data Sheet

Jitter, Noise, BER, and Serial Data Link Analysis Measures and Separates Deterministic Data Dependent Jitter from Random Jitter Measures Vertical Noise, Separating Deterministic Data-dependent Noise from Random Noise Highly Accurate BER and Eye Contour Estimation, Support for Latest Measurements - DDPWS, TWDP FFE/DFE Equalization, Transmitter Equalization Channel Emulation for Channels with >30 dB of Loss Linear Filter for Fixture De-embedding, Linear Filtering TDR (Time Domain Reectometry) Up to 50 GHz TDR Bandwidth with 15 ps Reected Rise Time and 12 ps Incident Rise Time Lowest Noise for Accurate Repeatable TDR Measurement Results 600 VRMS at 50 GHz Independent Sampler Deskew Ensures Easy Fixture and Probe De-embedding Industrys Only Mainframe to Accommodate up to Four True Differential TDR or Electrical Channel Pairs for Increased System Versatility S-parameters Measurements Up to 50 GHz Differential, Single Ended, Mixed Mode; Insertion, Return Loss, Frequency Domain Crosstalk PCI Express, Serial ATA, Inniband, Gigabit Ethernet Manufacturing, and Standard Compliance Testing for Gigabit Signal Path and Interconnects Including Eye Mask Tests Intuitive, Easy, and Accurate for Serial Data, Gigabit Digital Design, and Signal Integrity Fast and Accurate Automated Multiport S-parameter Measurements with Command Line Interface Industrys Best Standard Timebase Jitter Performance, 800 fsRMS Industry-leading Timebase Jitter Performance, <200 fsRMS*1 Available with Phase Reference Mode Fast Acquisition Rate and High Throughput True Differential Remote Sampler Enabling Placement Near DUT for Superior Signal Fidelity FrameScan Acquisition Mode with Eye Diagram Averaging: Isolate Data-dependent Faults Examine Low-power Signals MS Windows XP Operating System Advanced Connectivity to 3rd party Software

Features & Benets

State-of-the-Art Sampling Oscilloscope for Communication Signal Analysis, TDR/TDT/Serial Data Network Analysis, Acquisition, and Measurements of Repetitive Ultrafast Signals Acquisition of Spread Spectrum Clocking (SSC) Signals Industrys Only Mainframe to Support up to 8 Input Channels for Increased Flexibility and Throughput Four Color Graded, Variable Persistence Waveform Databases Measurement System with Over 100 Automated Measurements Complete Suite of Communications Measurements Includes Both Types of OMA, SSC Prole, and Many Others Automated ITU/ANSI/IEEE Mask Testing Masks and Measurements for SONET/SDH, FC, Ethernet, and Other Standards Built-in Mask Updates Can be Loaded from Factory-supplied File Mask Margin Testing for Guard Banding Production Testing Acquisition Modules Fully Integrated Multirate Optical Modules Optical Modules up to 80 GHz 80C10B High-accuracy "ER Calibrated" Measurement Available in Some Modules Electrical Modules up to 70+ GHz Bandwidth and 5 ps Measured Rise Time (10-90%) Flexible Rate Clock Recovery Clock Recovery with SSC (Spread Spectrum Clocking) Support Available

Data Sheet

Applications
Design/Verication of Telecom and Datacom Components and Systems Manufacturing/Testing for ITU/ANSI/IEEE/SONET/SDH Compliance High-performance True Differential TDR Measurements Advanced Jitter, Noise, and BER Analysis Impedance Characterization and Network Analysis for Serial Data Applications Including S-parameters Channel and Eye Diagram Simulation and Measurement-based SPICE Modeling
*1 Typical, with the Phase Reference Module, some conditions apply. Without the module, the jitter is <800 fsRMS (typical).
differential time domain reectometer (TDR) modules, with remote samplers, offer up to 50 GHz bandwidth and 15 ps reected rise time and 12 ps incident rise time. The family of low-noise variable bandwidth electrical modules provides the industrys best noise performance with remote samplers, featuring 450 VRMS noise at 60 GHz, and 300 VRMS at 30 GHz. DSA8200 optical modules provide complete optical test solutions with superior system delity from 125 Mb/s to 43 Gb/s and beyond. The modules cover a range of wavelengths for both single- and multi-mode bers. Each module can be optionally congured with a number of selectable data rate lters/optical reference receivers (ORR) and/or a full bandwidth path. The 80C07B, 80C08C, and 80C11 can be congured with a number of available exible integrated clock recovery options. The 80C12 multirate module clock recovery support is achieved with an electrical output for use with the 80A05 or 80A07 Electrical Clock Recovery Modules. The DSA8200s popular FrameScan acquisition mode can be used with patterns from DUTs, BERTs, and other sources, to isolate pattern-dependent effects in transmitters or show the bit sequence preceding a mask violation. FrameScan automatically sequences the timebase so that each bit of the data stream is acquired in time order. When used in combination with mask testing conditional acquisition features of the DSA8200, such as stop after mask hits, FrameScan can automatically identify at which bit a pattern-dependent failure occurred. In addition, specialized modules supporting features such as single-ended and differential electrical clock recovery, electrostatic protection for the TDR, and connectivity to the popular TekConnect probing system brings you the performance of Tektronix state-of-the-art probes for high-impedance and differential probing. Low-impedance probes for 50 probing and for TDR probing are also available.

Superior Performance with Extraordinary Versatility
For developing todays high-speed serial devices, the DSA8200 Digital Serial Analyzer sampling oscilloscope is the most versatile tool for communication, computer and consumer electronics gigabit transmitter and signal path characterization, and compliance verication. With exceptional bandwidth, signal delity, and the most extensible modular architecture, the DSA8200 provides the highest performance TDR and interconnect analysis, most accurate analysis of signal impairments, and BER calculations for current and emerging serial data technology. The DSA8200 provides unmatched measurement system delity with ultra-low jitter oor that ensures the most accurate acquisition of high-speed signals. You get advanced analysis benets from the 200 fs acquisition jitter with the Phase Reference module. And in another step forward for a sampling oscilloscope, with the help of the Phase Reference module the DSA8200 can acquire and measure SSC (Spread Spectrum Clocking) signals. The multiprocessor architecture, with dedicated per-slot digital signal processors (DSPs), provides fast waveform acquisition rates, reducing the test times necessary for reliable characterization and compliance verication. The DSA8200s versatile modular architecture supports a large and growing family of plug-ins enabling you to congure your measurement system with a wide variety of electrical, optical, and accessory modules that best suit your application now and in the future. With 6 module slots, the DSA8200 can simultaneously accommodate a clock recovery module, a precision Phase Reference module, and multiple acquisition modules, electrical or optical, so you can match system performance to your evolving needs. Featuring industry leading signal delity, the family of electrical modules includes bandwidth performance from 12 GHz to 70+ GHz. Two true
Jitter, Noise, BER, and Serial Data Link Analysis
80SJNB Jitter, Noise, BER, and Serial Data Link Analysis software package is a comprehensive application for serial data link analysis and for measurements of jitter and noise. Highly accurate BER estimation (based on both jitter and noise) impairments are built with accuracy higher than simple jitter-based bathtub estimation and with analysis capability unavailable on a BERT. Available in the package also is a unique, state-of-the-art combination of FFE/DFE equalization, channel emulation, and xture de-embedding tools. When combined with the DSA8200s modular exibility, uncompromised performance, and unmatched system delity, this Serial Data Link Analysis (SDLA) tool-box provides the ideal solution for next-generation high-speed serial data design validation and compliance testing. See the 80SJNB datasheet for more information.

www.tektronix.com

Digital Serial Analyzer Sampling Oscilloscope DSA8200
TDR and electrical modules with fully integrated remote sampler.

80E10 80E08 80E04

50 GHz 30 GHz 20 GHz
Failure Analysis Quickly Identify Fault Location
The new 80E10 provides superior resolution enabling the fastest and most efcient fault isolation in package, circuit board, and on-chip failure analysis applications.
With the long record length acquisitions, IConnect provides great exibility for obtaining the desired frequency range and frequency step when performing S-parameter measurements. Up to 1,000,000 points can be acquired*2. When you employ IConnect Signal Integrity TDR and S-parameter software with the DSA8200 you have an efcient, easy-to-use, and cost-effective solution for measurement-based performance evaluation of multigigabit interconnect links and devices, including signal integrity analysis, impedance, S-parameter and eye diagram tests, and fault isolation. IConnect can help you complete interconnect analysis tasks in minutes instead of days, resulting in faster system design time and lower design costs. IConnect also enables impedance, S-parameters, and eye diagram compliance testing as required by many serial data standards, as well as full channel analysis, Touchstone (SnP) le output, and SPICE modeling for gigabit interconnects.
*2 Long record lengths are supported only on DSA8200, CSA8200, TDS8200, CSA8000, and TDS8000 platforms.
Advanced Communication Signal Analysis
Specically designed for ultra-high-performance optical and electrical serial data applications, the DSA8200 is the ideal tool for design characterization and validation, as well as manufacturing test of datacom and telecom components, transceiver subassemblies, and transmission systems. The DSA8200 generates measurement results, not just raw data, with time and amplitude histograms, mask testing, and statistical measurements. It provides a communications-tailored measurement set that includes jitter, noise, duty cycle, overshoot, undershoot, OMA, extinction ratio, Q-factor, mean optical power, and amplitude. In addition, you can do mask testing of SONET/SDH, 100 Gigabit (4x25), 10 Gigabit, Gigabit Ethernet, and other electrical and optical standards compliance verication. Color grading and gray-scale grading of waveform data adds a third dimension, sample density, to your signal acquisitions and analyses to provide visual insight. In addition, the variable persistence database feature enables exact data aging to all of the functions, and facilitates eye measurements on DUTs under adjustment.

TDR Module Summary Table

Module Typical TDR Rise Time at Full Bandwidth Incident*7 Reected*7
using TDR steps to drive one line (or line pair for differential crosstalk) while monitoring a second line (or line pair) with the other channel (or another module for differential crosstalk). The "rise time lter" function on the DSA8200 mainframe can be used with TDR or crosstalk measurements to characterize expected system performance with slower edge speeds. An optional 2 meter extender cable for the 80E04 is available, which enables placement of the module near the DUT for the best system delity. All modules have independent incident step and receiver deskew to remove the affect of xtures and probes, enabling faster and easier deskew. The 80E10 sampling module provides an acquisition rise time of 7 ps, with up to 50 GHz user-selectable equivalent bandwidth (with 50 GHz, 40 GHz, and 30 GHz settings). 80E08 sampling bandwidth is 30 GHz (user-selectable with 30 GHz and 20 GHz settings) and 80E04 sampling bandwidth is 20 GHz. The 20 GHz P8018 single-ended and the 18 GHz P80318 differential variable pitch TDR handheld probes provide excellent performance, ensuring easy and accurate backplane and package measurements.
Bandwidth Performance*8 RMS Noise at Bandwidth*8 Remote Sampler

12 ps 18 ps 23 ps

15 ps 20 ps 28 ps
50 GHz, 40 GHz, and 30 GHz (user-selectable) 30 GHz, 20 GHz (user-selectable) 20 GHz
50 GHz: 40 GHz: 30 GHz: 30 GHz: 20 GHz: 600
600 V 370 V 300 V 300 V 280 V V
Yes, fully integrated 2 meter cable Yes, fully integrated 2 meter cable No, optional 80Nmeter extender cable
*7 Values shown are warranted unless printed in an italic typeface which represents a typical value. *8 Calculated from.35 bandwidth rise time product.
Electrical Modules: 80E09, 80E07, 80E06, 80E03, and 80E01 The 80E09 and 80E07 are dual-channel modules with remote samplers, capable of noise as low as 450 VRMS at 60 GHz bandwidth and 300 VRMS noise at 30 GHz bandwidth. Each small form factor remote sampler is attached to a 2-meter cable to minimize the effects of cables, probes, and xtures to ensure the best system delity. User-selectable bandwidth settings (60/40/30 on 80E09 and 30/20 on 80E07) offer optimal noise/bandwidth trade-off. 80E06 and 80E01 are single-channel 70+ and 50 GHz bandwidth sampling modules respectively. 80E06 provides the widest bandwidth and fastest rise time with world-class system delity. Both 80E06 and 80E01 provide a superior maximum operating range of 1.6 V. Both modules can be used

Electrical Module Summary Table
Electrical Module Step Response at Full Bandwidth (10% - 90%)*7 Number Of Channels
with the optional 2-meter extender cable, ensuring superior system delity and measurement exibility. The 80E03 is a dual-channel 20 GHz sampling module. This module provides an acquisition rise time of 17.5 ps or less. An optional 2-meter extender cable is available. When used with Tektronix 80SJNB Jitter, Noise, and BER Analysis software, these modules enable separation of both jitter and noise into their constituent components, for insight into the underlying causes of eye closure and obtain highly accurate calculation of BER and 3-D eye contour. When used with 82A04 phase reference module, timebase accuracy can be improved down to 200 fsRMS jitter which, together with the 300 VRMS noise oor and 14 bits of resolution, ensures the highest signal delity for your measurements.
Bandwidth*7, *9 RMS Noise at bandwidth*7 Remote Sampler
80E09 80E07 80E06 80E03 80E01
5.8 ps 11.7 ps 5.0 ps 17.5 ps 7 ps
60 GHz / 40 GHz / 30 GHz (user-selectable) 30 GHz / 20 GHz (user-selectable) 70+ GHz 20 GHz 50 GHz
60 GHz: 450 V 40 GHz: 330 V 30 GHz: 300 V 30 GHz: 300 V 20 GHz: 280 V 1.8 mV 600 V 1.8 mV
Yes, fully integrated 2 meter cable Yes, fully integrated 2 meter cable No, optional 80Nmeter extender cable No, optional 80Nmeter extender cable No, optional 80Nmeter extender cable
*7 Values shown are warranted unless printed in an italic typeface which represents a typical value. *9 Now obsolete module useful with older versions of the mainframe, but not needed with the 8200 Series mainframes.
DSA8200 Accessory Modules
82A04 Phase Reference Module The 82A04 Phase Reference Module enhances the DSA8200 sampling oscilloscope from the industrys standard timebase jitter performance of 800 fsRMS, to the extremely low timebase jitter of <200 fsRMS. Typical application for the Phase Reference module is the acquisition and analysis of very high-speed optical and electrical signals in communication devices and systems. The 82A04 supports both the Triggered mode of operation, which is similar to usual acquisition, and the untriggered Free Run mode where all timing information comes from the customer-supplied clock alone (no trigger signal necessary). When the external clock is not available the module can accept the clock signal from the clock recovery output of the 80Cxx modules, as well as from the 80A05 or 80A07 clock recovery modules. Additionally 82A04 supports SSC (Spread Spectrum Clocking) operation. 80A05 Electrical Clock Recovery Module The 80A05 Electrical Clock Recovery Module enables clock recovery for electrical signals, as well as internal triggering on the recovered clock. The module recovers clocks from serial data streams for all of the most common electrical standards in the 50 Mb/s to 4.25 Gb/s, around 5 to 6 Gb/s, and from 9.953 Gb/s to 12.5 Gb/s ranges. The module accepts either single-ended or differential signals as its input, providing clock recovery for both. The signal(s) is/are then passed on to the output connectors (at about 50% of the input level) and can be connected to sampling module(s) for differential or single-ended sampling. Option 10G is required for support of standard rates from 9.953 Gb/s to 12.6 Gb/s. The 80A05 and 80A07 can also serve as the clock recovery module for the 80C12 Optical Sampling Module. 80A06 PatternSync Module The 80A06 PatternSync Trigger Module, when used in combination with 80SJNB software, enables characterizing jitter, noise, and BER performance of high-speed serial designs from 1 Gb/s to 60 Gb/s data rates. It extends the capability of the DSA8200 sampling oscilloscope by creating a pattern trigger from any data-related clock a recovered clock, user-supplied clock, sub-clock, or super-clock. The PatternSync Trigger Module is programmable to pattern lengths of up to 223 bits and accepts a user-supplied clock signal from 150 MHz to 12.5 GHz. The 80A06 module is required with the DSA8200 when using 80SJNB Advanced Jitter, Noise, and BER Analysis software package. This module can be used in combination with the 82A04 Phase Reference module for the best timebase accuracy or for acquisition of signals under SSC (Spread Spectrum Clocking).

80A03 TekConnect Probe Interface Module The 80A03 provides probe power and control for up to two Tektronix P7000 Series probes. The 80A03 is powered through the oscilloscope and requires no user adjustments or external power cords. An electrical sampling module can be plugged directly into the slot on the 80A03 to provide the optimum system delity and a short electrical path. Using the 80A03 designers can benet from Tektronix industry-leading active and differential probes to measure signals on SMD pins and other challenging circuit features. SlotSaver Small Module Extender Cable This cable can be used to power and operate one 80A01*9, 80A02, or 80A06 accessory modules, eliminating the need to consume a small form factor mainframe slot. The SlotSaver extender cable plugs into the Trigger Power connector on the mainframe or (for 80A01 and 80A02) into the Probe Power connector on most electrical sampling modules.
*9 Now obsolete module useful with older versions of the mainframe, but not needed with the 8200 Series mainframes.
the Transmitter Waveform Dispersion Penalty (TWDP) measurement (download the free U80TWDP_LRM utility from www.tektronix.com).
80SJNB Jitter and Noise Analysis Measurements

Jitter Analysis

Measurements Description
DSA8200 Application Software
80SJNB Jitter, Noise, BER, and Serial Data Link Analysis (SDLA) Software 80SJNB speeds the identication of the underlying causes of both horizontal and vertical eye closure through separation of jitter and noise. With its unique insight into the constituent components of both jitter and noise, 80SJNB provides a highly accurate and complete BER calculation and eye contour analysis. Additionally available in the software package is the rst-ever set of features addressing the design issues of modern Serial Data Links: equalization with either FFE or DFE, channel emulation, support for xture de-embedding, as well as full support for SSC Spread Spectrum Clocking. When you combine Jitter, Noise, and BER analysis with the DSA8200 modular exibility, uncompromised performance, and unmatched signal delity you get the ideal solution for next-generation high-speed serial data design validation and compliance testing. 80SJNB requires the 80A06 PatternSync module, which creates a trigger pulse on each complete pattern. 80SJNB may be used with the 82A04 phase reference module for enhanced accuracy or for SSC signals, or without it depending on your requirements. SSC max. amplitude 5000 ppm (6000 ppm) at kHz. Current version V2.1 of 80SJNB supports save and recall of the complete signal description. Also added is a new measurement DDPWS (Data Dependent Pulse Width Shrinkage) and a corresponding graph. 80SJNB also supports

*12 When using the 82A04 Phase Reference module performance under SSC is lower and depends on modulation shape, clock recovering setting, and cabling lengths.

Display Features

Touch Screen Display Colors Video Resolution Monitor Type 264 mm/10.4 in. diagonal, color 16,777,216 (24 bits) 640 horizontal by 480 vertical displayed pixels LCD

Math/Measurement

Characteristic Description

Characteristic

Description
System Measurements Measurement Set Amplitude Measurements
Timing Measurements Area Measurements Cursors Waveform Processing
The DSA8200 supports up to eight simultaneous measurements, updated three times per second with optional display of per measurement statistics (min, max, mean, and standard deviation) Automated Measurements include RZ, NRZ, and Pulse signal types, and the following: High, Low, Amplitude, Max, Mid, Min, +Width, Eye Height, Eye Opening Factor, Pulse Symmetry, Peak-to-Peak, P-P, OMA, +Overshoot, -Overshoot, Mean, +Duty Cycle, Cycle Mean, RMS, Cycle RMS, AC RMS, Gain, Extinction Ratio (Ratio, %, dB), Suppression Ratio (Ratio, %, dB), Peak-to-Peak Noise, RMS Noise, Q-Factor, SNR, Average Optical Power (dBm, watts), OMA Rise, Fall, Period, Bit Rate, Bit Time, Frequency, Crossing (%, Level, Time), +Cross, -Cross, Jitter (P-P, RMS), Eye Width, +Width, -Width, Burst Width, +Duty Cycle, Duty Cycle, Duty Cycle Distortion, Delay, Phase Area, Cycle Area Dot, vertical bar, and horizontal bar cursors Up to eight math waveforms can be dened and displayed using the following math functions: Add, Subtract, Multiply, Divide, Average, Differentiate, Exponentiate, Integrate, Natural Log, Log, Magnitude, Min, Max, Square Root, and Filter. In addition, measurement values can be utilized as scalars in math waveform denitions.
Mask Testing Standard Rate (Gb/s) unless otherwise noted
Custom masks (a new FW feature) can be used to distribute new, Tektronix factory created, NRZ, updated masks as a le loadable by the rmware. User-dened masks allow the user to create (through UI or PI) user masks. For most applications mask will be found in the following list of predened, built-in masks: STM-0/OC-Mb/s STM-1/OC-Mb/s STM-4/OC-Mb/s STM-16/OC-48 2.488 STM-64/OC-192 9.953 STM-256/OC-768 39.813 FEC 2.666 2.666 FEC 10.66 10.664 FEC 10.709 FEC 11.100 FEC 27.739 Gb/s (100GBase-LR4 100GBase-ER4) FEC 42.66 42.657 FEC 43 Gb/s G.709 43.018 FC-10 G 10.5188 optical only FC-16 17.0 - optical and electrical FC-133 132.813 Mb/s - optical and electrical FC-266 265.6 Mb/s - optical and electrical FC-531 531.2 Mb/s - optical and electrical FC-1063 1.063 - optical and electrical FC-2125 2.125 - optical and electrical FC-4250 4.250 - optical and electrical FC-8500 8.500 - optical and electrical, optical 10GFC, FEC 11.3*G BASE-X4 3.G BASE-W 9.G BASE-R 10.313, FEC 11.1, 8.5 GFC 40GBase-LR4 41.25 OTU3+ 44.50 Gb/s 4x10G LAN PHY 100G Base-LR4 and 100GBase-ER4 25.781 Gb/s InniBand 2.500 - optical and electrical Gigabit Ethernet 1.250 Gigabit Ethernet 2.5 Gb/s XAUI, XFI PCI-Express 2.5G PCI-Express 5.0G SAS XR 3.0G SAS XR AASJ 3.0G SATA G1Tx 1.5G SATA G1Rx 1.5G SATA G2Tx 3.0G SATA G2Rx 3.0G SATA G3Tx 6.0G SATA G3Rx 6.0G Rapid I/O 1.25G Rapid I/O 2.50G Rapid I/O 3.125

Optical Sampling Module Characteristics (Cont.)
Module Clock Recovery (Optional) Clock Recovery Outputs Unltered Optical Bandwidth*13 Absolute Maximum Nondestructive Optical Input Internal Fiber Diameter
Option CR1: 155 Mb/s, 622 Mb/s, 1.063 Gb/s, 1.250 Gb/s, 2.125 Gb/s, 2.488 Gb/s, 2.500 Gb/s, 2.666 Gb/s Option CR1: 9.953 Gb/s, 10.31 Gb/s; Option CR2: 10.31 Gb/s, 10.52 Gb/s; Option CR4: Continuous from 9.8 Gb/s to 12.6 Gb/s

Clock, Data

2.5 GHz
5 mW average; 10 mW peak power at wavelength of highest responsivity 1 mW average; 10 mW peak power at wavelength of highest responsivity

62.5 m/125 m Multi Mode

Clock, Clock/16

10 GHz

80C10B*13 80C11 Option CR1: 9.953 Gb/s; Option CR2: 9.953 Gb/s, 10.664 Gb/s; Option CR3: 9.953 Gb/s, 10.709 Gb/s; Option CR4: Continuous between 9.8 Gb/s to 12.6 Gb/s Provided by 80A05 or 80A07 (sold separately) CR1: Clock, Clock/16, Data; CR2, CR3, CR4: Clock, Clock/16

80 GHz 28 GHz

20 mW average; 60 mW peak power at wavelength of highest relative responsivity 5 mW average; 10 mW peak power at wavelength of highest responsivity
9 m/125 m Single Mode 9 m/125 m Single Mode

ELECTRICAL SIGNAL OUT

9 GHz (for all options except 10G) 10 GHz (option 10G)
1 mW average; 10 mW peak power at wavelength of highest responsivity
*13 Bandwidths shown are warranted unless printed in an italic typeface which represents a typical value. 80C08C, 80C12: Bandwidths and optical lters valid for OMA 500 uW (1550/1310 nm), OMA 860 uW (850 nm), OMA 1020 uW (780 nm).
Module Optical Return Loss Fiber Input Accepted RMS Optical Noise (typical) RMS Optical Noise (maximum) Independent Channel Deskew

80C07B 80C08C 80C10B

>14 dB (Multi Mode) Single or Multi Mode >24 dB (Single Mode) >14 dB (Multi Mode) Single or Multi Mode >24 dB (Single Mode) >30 dB Single Mode
0.50 W at 155 Mb/s, 622 Mb/s, 1063 Mb/s, 1250 Mb/s; 0.70 W at 2.488/2.500 Gb/s 1.7 W at all lter rates (1550/1310 nm, no CR) 1310 nm 1550 nm 15 uW (25.8, 21 uW (25.8, 27.7 Gb/s) 27.7 Gb/s) 19 uW (30 GHz) 26 uW (30 GHz) 20 uW (39.8 Gb/s 28 uW (39.8 Gb/s - 43.0 Gb/s) - 43.0 Gb/s) 33 uW (65 GHz) 44 uW (65 GHz) 55 uW (80 GHz) 72 uW (80 GHz) 5.5 W at all lter rates; 10.0 W at 20 GHz 20.0 W at 30 GHz 1.3 W (all lters except option 10G) 2.4 W (Full BW and option 10G lters) 1310 nm 21 uW (25.8, 27.7 Gb/s) 44 uW (65 GHz) 1550 nm 15 uW (25.8, 27.7 Gb/s) 33 uW (65 GHz)

1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0
Vp-p Vp-p Vp-p Vp-p Vp-p Vp-p Vp-p Vp-p
1.1 1.1 1.1 1.1 1.6 1.6 1.6 1.6

V V V V V V V V

2.0 2.0 2.0 2.0 2.0 3.0 3.0 2.0
14 bits full scale 14 bits full scale 14 bits full scale 14 bits full scale 14 bits full scale 14 bits full scale 14 bits full scale 14 bits full scale
*8 Calculated from.35 bandwidth rise time product. *18 Calculated from formula rise time = 0.35/(typical bandwidth).
Module Vertical Sensitivity Range DC Vertical Voltage Accuracy, single point, within 2 C of Compensated Temperature Typical Step Response Aberrations RMS Noise*7
10 mV to 1.0 V full scale
[2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]

80E06*18 80E04

10 mV to 1.0 V full scale 10 mV to 1.0 V full scale
[2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)] [2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]
1% or less over the zone 10 ns to 20 ps before step transition; +6%, -10% or less for the rst 400 ps following step transition; +0%, -4% or less over the zone 400 ps to 3 ns following step transition; +1%, -2% or less over the zone 3 ns to 100 ns following step transition; 1% after 100 ns following step transition 1% or less over the zone 10 ns to 20 ps before step transition; +6%, -10% or less for the rst 400 ps following step transition; +0%, -4% or less over the zone 400 ps to 3 ns following step transition; +1%, -2% or less over the zone 3 ns to 100 ns following step transition; 1% after 100 ns following step transition 1% or less over the zone 10 ns to 20 ps before step transition; +6%, -10% or less for the rst 400 ps following step transition; +0%, -4% or less over the zone 400 ps to 3 ns following step transition; +1%, -2% or less over the zone 3 ns to 100 ns following step transition; 1% after 100 ns following step transition 1% or less over the zone 10 ns to 20 ps before step transition; +6%, -10% or less for the rst 400 ps following step transition; +0%, -4% or less over the zone 400 ps to 3 ns following step transition; +1%, -2% or less over the zone 3 ns to 100 ns following step transition; 1% after 100 ns following step transition 5% or less for rst 300 ps following step transition 3% or less over the zone 10 ns to 20 ps before step transition; +10%, -5% or less for the rst 300 ps following step transition; 3% or less over the zone 300 ps to 5 ns following step transition; 1% or less over the zone 5 ns to 100 ns following step transition; 0.5% after 100 ns following step transition 3% or less over the zone 10 ns to 20 ps before step transition; +10%, -5% or less for the rst 300 ps following step transition; 3% or less over the zone 300 ps to 5 ns following step transition; 1% or less over the zone 5 ns to 100 ns following step transition; 0.5% after 100 ns following step transition 3% or less over the zone 10 ns to 20 ps before step transition; +12%, -5% or less for the rst 300 ps following step transition; +5.5%, -3% or less over the zone 300 ps to 3 ns following step transition; 1% or less over the zone 3 ns to 100 ns following step transition; 0.5% after 100 ns following step transition

50 GHz: 600 V, 700 V 40 GHz: 370 V, 480 V 30 GHz: 300 V, 410 V
60 GHz: 450 V, 600 V 40 GHz: 330 V, 480 V 30 GHz: 300 V, 410 V
30 GHz: 300 V, 410 V 20 GHz: 280 V, 380 V
1.8 mV, 2.4 mV (maximum) 600 V, 1.2 mV (maximum)

600 V, 1.2 mV (maximum)

1.8 mV, 2.3 mV (maximum)
*7 Values shown are warranted unless printed in an italic typeface which represents a typical value. *18 Calculated from formula rise time = 0.35/(typical bandwidth).
S-parameter Performance Characteristics (80E10)

Measurement Conditions

All measurements were performed after proper warm up as specied in the DSA8200 manual Standard S-parameter dynamic range measurement practices were used to determine the dynamic range of the module Uncertainty results were derived from a wide range of devices, with 250 averages Better dynamic range can be achieved by selecting lower bandwidth settings on the 80E10 module due to lower RMS noise oor Results apply to single-ended or differential measurements
Dynamic range Uncertainty
Physical Characteristics for Electrical Sampling Modules
Module Width Dimensions (mm/in.) Height Depth Weight (kg/lb.) Net

Product Feature

80A05 Standard Option 10G
80E10*19 80E09*19 80E08*19 80E07*19 80E06 80E04 80E03 80E01
55/2.2 55/2.2 55/2.2 55/2.2 79/3.1 79/3.1 79/3.1 79/3.1
25/1.0 25/1.0 25/1.0 25/1.0 25/1.0 25/1.0 25/1.0 25/1.0
75/3.0 75/3.0 75/3.0 75/3.0 135/5.3 135/5.3 135/5.3 135/5.3
0.175/0.37 0.175/0.37 0.175/0.37 0.175/0.37 0.4/0.87 0.4/0.87 0.4/0.87 0.4/0.87
XFP/XFI 10GBase-W 10GBase-R*6 10GB Fibre Channel G.975 FEC G.709 FEC OIF CEI 10 GbE w/FEC Super FEC
9.95-11.2 9.953 Gb/s 10.31 Gb/s 10.51 Gb/s 10.66 Gb/s 10.71 Gb/s 11+ Gb/s 11.10 Gb/s 12.50 Gb/s

*20 *20

*20 *20 *20 *20 *20 *20
*19 Remote module characteristics.
80A05 and 80A07 Electrical Clock Recovery Module
Product Feature Supported Specications 80A05 Standard Option 10G 80A07
Enumerated standards OC3 / STM1 155.52 Mb/s OC12 / STM4 622.08 Mb/s Fibre Channel 1.063 Gb/s Gigabit 1.25 Gb/s Ethernet SAS Gen I 1.50 Gb/s 2 GB Fibre 2.125 Gb/s Channel OC48 / STM16 2.488 Gb/s 2 GB Ethernet 2.50 Gb/s PCI Express I 2.50 Gb/s Inniband 2.50 Gb/s 2.5G G.709 2.666 Gb/s FEC SAS Gen II 3.0 Gb/s XAUI, 3.125 Gb/s 10GBase-X 10GB Fibre 3.188 Gb/s Channel xGB Fibre 4.25 Gb/s Channel FB-DIMM1 3.2, 4.0, 4.8 Gb/s PCI Express II 5.0 Gb/s FB-DIMM2 4.8, 6.4, 8.0, 9.6 Gb/s OIF CEI 6+ Gb/s 2x XAUI 6.25 Gb/s 8 GB Fibre 8.50 Gb/s Channel*6 OC192 / 9.953 Gb/s STM64

Power Requirements Line Voltage and 100 to 240 VAC 10% 50/60 Hz Frequency 115 VAC 10% 400 Hz Environmental Characteristics Temperature Operating +10 C to +40 C Nonoperating -22 C to +60 C Relative Humidity 20% to 80% at or below 40 C (upper limit de-rates to 45% Operating (Floppy disk and relative humidity at 40 C) CD-ROM not installed) Nonoperating 5% to 90% at or below 60 C (upper limit de-rates to 20% relative humidity at +60 C) Altitude Operating 3,048 m (10,000 ft.) Nonoperating 12,190 m (40,000 ft.) Electromagnetic 89/336/EEC Compatibility Safety UL3111-1, CSA1010.1, EN61010-1, IEC61010-1

Ordering Information

DSA8200 Digital Serial Analyzer Sampling Oscilloscope
Includes: User manual, quick reference card, MS Windows XP compatible keyboard and mouse, touch screen stylus, online help, programmer online guide, power cord. With OpenChoice software, Tektronix provides enhanced test and measurement analysis with the capability of full integration of third-party software on the open Windows oscilloscopes. By working with the industry leaders, National Instruments and The MathWorks, examples of software programs from these companies are featured on all Tektronix open Windows oscilloscopes.

Service Options

Option Description
Opt. Opt. Opt. Opt. Opt. Opt. Opt.

C3 C5 D1 D3 D5 R3 R5

Calibration Service 3 Years Calibration Service 5 Years Calibration Data Report Calibration Data Report 3 Years (with Option C3) Calibration Data Report 5 Years (with Option C5) Repair Service 3 Years Repair Service 5 Years

Options

Opt. GT Opt. JNB Opt. JNB01
Gated Trigger Essential and Advanced Jitter, Noise, and BER Analysis Software. See 80SJNB Essentials and 80SJNB Advanced for more information.
International Power Plug Options
Opt. Opt. Opt. Opt. Opt. Opt. Opt. Opt.
A0 A1 A2 A3 A4 A5 A10 A99
North America Power Universal EURO Power United Kingdom Power Australia Power 240 V, North America Power Switzerland Power China Power No Power Cord

Other Accessories

Accessory Description
Sampling Module Extender Cable (2 meter) SlotSaver Adapter Extender Cable 82A04 Filter 2 GHz 82A04 Filter 4 GHz 82A04 Filter 6 GHz 2X Attenuator (SMA male-to-female) 5X Attenuator (SMA male-to-female) Connector Adapter Power Divider Rackmount Kit Wrist strap (antistatic) P7513 / P7516 P7260 P7350 P7350SMA P7380SMA P6150 P8018 P80318 80A01 80A02 80A03 82A04 80A05 The standard version of 80A05 supports signals in the following ranges: The Option 10G adds the ranges of: 80A06 80A07 80SJNB Essentials 80SJNB Advanced

Interconnect Cables (3rd Party) Tektronix recommends using quality high-performance interconnect cables with these high-bandwidth products in order to minimize measurement degradation and variations. The W.L. Gore and Associates cable assemblies listed below are compatible with the 2.92 mm, 2.4 mm, and 1.85 mm connector interface of the 80Exx modules. Assemblies can be ordered by contacting Gore by phone at (800) 356-4622, or on the web at www.gore.com/tektronix Calibration Kits and Accessories (3rd Party) To facilitate S-parameter measurements with the new 80E10, 80E08, and 80E04 electrical TDR modules and IConnect software, we recommend precision calibration kits, adapter kits, connector savers, airlines, torque wrenches, and connector gauges from Maury Microwave. These components, accessible at www.maurymw.com/tektronix.htm, are compatible with the 2.92 mm, 2.4 mm, and 1.85 mm connector interface of the 80Exx modules. Cal kits and other components can be ordered by contacting Maury Microwave.

Interconnect Cables

015-0560-00 (450 mm/18 inch; 1 dB loss at 20 GHz) cable is a high-quality cable recommended for work up to 20 GHz.
Cable Frequency Connectors Length Bench Top Test Cable Assemblies
TEK40PF18PP TEK50PF18PP TEK65PF18PP

40 GHz 50 GHz 65 GHz

2.92 mm male 2.4 mm male 1.85 mm male
18.0 inches 18.0 inches 18.0 inches
High-frequency Interconnect Cables for Electrical Sampling Modules
TEK40HF06PP TEK40HF06PS TEK50HF06PP TEK50HF06PS TEK65HF06PP TEK65HF06PS
40 GHz 40 GHz 50 GHz 50 GHz 65 GHz 65 GHz
2.92 mm male 2.92 mm male; 2.92 mm female 2.4 mm male 2.4 mm male; 2.4 mm female 1.85 mm male 1.85 mm male, 1.85 mm female
6.0 inches 6.0 inches 6.0 inches 6.0 inches 6.0 inches 6.0 inches
Product(s) are manufactured in ISO registered facilities.

Contact Tektronix:

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