WaveMaster 8 Zi-A (4 GHz-45 GHz
WaveMaster® 8 Zi-A Series
4 GHz – 45 GHz
Exceptional Performance and Superior Serial Data Analysis
•
•
•
•
Up to 20 GHz on 4 Channels
Up to 45 GHz Bandwidth at 120 GS/s
Multi-Lane Serial Data Eye, Jitter and Crosstalk Analysis
14.1 Gb/s Hardware Serial Trigger Available
HIGH BANDWIDTH AND EXCEPTIONAL PERFORMANCE
Up to 45 GHz Bandwidth, 120 GS/s
High Bandwidth
Real-time Oscilloscopes with
Exceptional Performance
WaveMaster 8 Zi-A combines
high bandwidth (45 GHz) and
sample rate (120 GS/s) with superior
signal fidelity performance and
20 GHz on all four input channels.
Availability of models from 4 to 45 GHz
7
with complete bandwidth upgradability
throughout the entire product range
makes it easy and affordable to stay
current with emerging high-speed
technologies and serial data standards.
WaveMaster 8 Zi-A is standard with the
highest performance CPU in its class -
11
an Intel® Core™ i7-2600 Quad-core
(2.6 GHz per core, up to 3.8 GHz in Turbo mode)
with 8 GB of RAM (upgradeable to 32 GB).
The oscilloscope’s X-Stream™ II architecture
fully leverages the CPU’s speed in all aspects —
2
10-100 times faster analysis processing on
maximum record lengths, instantaneous
8
instrument responsiveness, and 20 times
faster off-line data transfer.
With SDAIII-CompleteLinQ Serial Data
and Crosstalk Analysis software, you can
simultaneously display four eye diagrams and
calculate Tj, Rj, Dj, and Dj decomposition on
four lanes or four locations in one lane. Use the
EyeDrII and Virtual Probing toolsets to assist in
analyzing lane interactions, including de-embedding
crosstalk with S8p and S12p S-parameter files.
Crosstalk analysis tools provide ability to measure
vertical amplitude noise and deconvolve into Tn, Rn,
Dn and Dn decomposition, and perform additional
analysis to determine root cause of high noise.
2
14
1. Industry leading performance — 45 GHz bandwidth,
120 GS/s sample rate, 768 Mpts of analysis memory
2. W
idest bandwidth upgrade range (4 – 45 GHz)
provides best investment leverage
3. I ntel® Core™ i7-2600 Quad-core, 2.6 GHz
(per core, up to 3.8 GHz in Turbo mode) CPU
with 8 GB of RAM (upgradeable to 32 GB)
6
4. Low Jitter Measurement Floor and highly stable
timebase over long acquisitions
5. D
eepest toolbox with more measurements,
10
more math, more power
5
9
6. 1
5.3" widescreen (16 x 9) high resolution WXGA
color touch screen display—25% larger than
12.1" displays
7. X
-Stream II streaming architecture —
13
4
1
12
3
10 –100 times faster analysis and better
responsiveness than other oscilloscopes
8. C
rosstalk and Vertical Noise Analysis
9. S
DAIII “LinQ” options provide four simultaneous
eye diagrams and jitter calculations for multi-lane
serial data link analysis, or for or single-lane,
multiple location analysis
10. Eye Doctor™ II and Virtual Probe Signal Integrity
Toolsets provide real-time de-embedding,
emulation, and equalization on serial data channels
and complex networks
11. 3
25 MB/s data transfer rate from oscilloscope
to PC with Teledyne LeCroy Serial Interface Bus
(LSIB) option
12. Up to 14.1 Gb/s Serial Trigger available - 80-bit NRZ
and 8b/10b Symbol triggering
13. Largest selection of serial triggers and
decoders — more than 19 — available to
provide a total system view
14. 50 Ω and 1 MΩ inputs with both ProBus and
ProLink probe interfaces on all models provide
support for every probe manufactured by
Teledyne LeCroy without requiring external
adapters or probe amplifiers
3
Leading Performance, Innovative Technology
4
World’s Fastest Single-Chip ADC
Monolithic, custom-designed Silicon
Germanium (SiGe) 40 GS/s Analog-to-Digital
Converter (ADC) is the world’s fastest single-chip ADC.
High Bandwidth, Upgradeable,
Superior Serial Data Analysis Tools
Industry-Leading Real-Time
Oscilloscope Series - Models
up to 45 GHz
Teledyne LeCroy has utilized widely
adopted and proven SiGe processes,
custom 2nd generation ASIC designs,
and 6th generation Digital Bandwidth
Interleave (DBI) technology to achieve
unprecedented real-time oscilloscope
performance:
• 45 GHz
• 120 GS/s
Best Upgradeability and
­Investment Protection
Multi-Lane Serial Data and
Crosstalk Analysis
By utilizing the same platform for all
models from 4 to 45 GHz, we help
you best protect your investment and
give you future flexibility.
The world’s first and only serial data
analysis software to provide four
simultaneous eye diagrams, jitter
measurements, and jitter analysis.
Crosstalk analysis provides vertical
noise measurements and crosstalk
debug tools. Add Teledyne LeCroy’s
Eye Doctor™ II and Virtual Probe
Signal Integrity Tools for more power.
Analyze full record lengths to better
understand low frequency system
behaviors. Unique jitter decomposition
algorithms are provided to better
understand system behaviors.
Up to 14.1 Gb/s Serial Trigger
The highest speed true-hardware
serial trigger provides capability for
80-bit NRZ serial pattern, or 8b/10b
symbol triggering.
• 768 Mpts/Ch Analysis Memory
A 6.5 Gb/s serial trigger is included
20 GHz four channel performance
is provided on all models from
20 to 45 GHz. In all cases, signal fidelity
is pristine with exceptional rise time,
step response, jitter measurement
floor, and electrical noise ­performance.
High effective number of bits (ENOB)
over the complete operating frequency
range, especially in the crucial mid-band,
ensures the most noise-free display
of signals.
standard with SDA 8 Zi-A models, and
this may be upgraded to 14.1 Gb/s
capability.
Either serial trigger may be added to
WaveMaster 8 Zi-A and DDA 8 Zi-A
models.
5
The Best High Bandwidth Investment
Superior High Bandwidth
Performance
As memory and sample rate can be
interleaved, so can bandwidth. Using
high-performance technologies and
digital signal processing (DSP),
Teledyne LeCroy uses high-speed SiGe
analog components comfortably within
their rated bandwidth range
(20+ GHz) while providing additional
bandwidth on one or two channels
using 6th generation Digital
Bandwidth Interleaving (DBI). This
approach provides 4 channels at
20 GHz, 2 channels at 30 GHz,
and 1 channel at 45 GHz, with
better signal fidelity compared to
“stretching” of components beyond
their rated bandwidth. It also best
leverages proven technologies with
known and high reliability to minimize
up-front purchase costs.
Learn More
teledynelecroy.com/dl/864
teledynelecroy.com/dl/2943
teledynelecroy.com/dl/2960
Proven SiGe Components
Ensure High Performance
Low Jitter Measurement Floor and
High Timebase Stability
Silicon Germanium (SiGe) is
Additionally, it has none of the
An exceptionally accurate and stable timebase is
the most widely adopted and
thermal conductivity, reliability,
incorporated for the best possible jitter measurement
deployed semiconductor fabri-
yield, cost, and other concerns
accuracy. Teledyne LeCroy provides highly stable
cation process with many years
that captive, in-house processes
measurements at full (768 Mpts) record lengths,
of commercial deployment.
must contend with.
simplifying debug of low frequency events.
6
Widest Bandwidth Upgrade Range: 4 – 45 GHz
SDA 845Zi-A
WaveMaster 820Zi-A
All WaveMaster 8 Zi-A oscilloscopes are implemented with a single hardware platform. To extend bandwidth beyond
20 GHz, Teledyne LeCroy has leveraged DBI technology to minimize initial costs—the module that doubles the
bandwidth slides into a separate slot in the WaveMaster 8 Zi-A platform.
Best Investment Protection
From the perspective of bandwidth, sample rate,
processing speed, responsiveness, display size, and range
of capability, the WaveMaster 8 Zi-A platform is clearly
superior and will remain so for many years to come. With
the widest bandwidth upgrade range, an engineer who
is working on current generation technologies today can
confidently know that WaveMaster 8 Zi-A will support the
next generations of technology several years from now.
World’s Fastest
Single-chip ADC
High-speed
Memory
The monolithic 40 GS/s ADC
more elegant solution for main-
Custom high-speed memory chips on multiple
is the fastest single-chip ADC.
taining proper timing, phasing,
memory plug-in cards achieve up to 256 Mpts/Ch
Compared to other approaches
and offset between the on-chip
(or up to 768 Mpts/Ch interleaved with some
that use multiple ADC chips per
ADCs. The result is vastly
models and options). X-Stream II architecture
channel, or single-chip ADCs
improved spurious free dynamic
ensures fast and complete processing of full record
with more than 100 interleaved
range (SFDR) compared to
lengths with no limitations on analysis memory.
converters, the Teledyne
other oscilloscopes in its class.
LeCroy approach is a simpler,
7
X-Stream II Fast Analysis and Responsiveness
Deep Insight
for Analysis
An oscilloscope’s operating
performance is as important
as its electrical perform­ance.
The best operating performance comes from a design
that seamlessly integrates
the operating system, the
hardware processor and
the waveform processing
method. Each component
is important but only the
Teledyne LeCroy’s
X-Stream II waveform
processing method
unleashes amazing speed
performance and no
compromise in responsiveness. The result is a drastic
reduction in calculation
time which, when paired
with Teledyne LeCroy’s
deep measurement and
analysis toolbox, allows an
engineer to generate deep
insight about their design.
8
Teledyne LeCroy —The
Analysis Memory Leader
Teledyne LeCroy has found a way
to make long acquisition memory
seamless and pain free to use. The
WaveMaster 8 Zi-A Series’ proprietary
X-Stream II architecture supports
capturing, zooming, measuring and
analyzing multiple waveforms at up to
768 Mpts deep. WaveMaster 8 Zi-A’s
proprietary architecture design is
augmented with an Intel® Core™
i7-2600 Quad-core processor
(15.2 GHz GHz effective clock rate
in Turbo mode), high-speed serial data
buses, Windows® 7 64-bit OS and
8 GB of RAM standard (upgradeable
to 32 GB). What you experience is
processing speed 10–100x faster
compared to other oscilloscopes
in this class.
Instantaneous Responsiveness
With WaveMaster 8 Zi-A oscilloscopes
you will experience remarkable
responsiveness. Acquiring and
manipulating the longest record
WaveMaster 8 Zi-A excels at performing complex calculations on long waveforms,
enabling users to gain waveform insight with confidence. Here, a 40 Mpts PCIe Gen1
waveform acquisition is acquired and fully analyzed in a matter of seconds—nearly
100x faster than competitive oscilloscopes.
lengths and performing the most
complex WaveShape Analysis are all
easily handled at the same time, unlike
competitive oscilloscopes that become
painfully slow to respond when long
memory is applied. Bottom line:
­oscilloscopes no longer need to
carry a penalty for operating with
long memory.
Fast Off-line Data Transfer
When the application calls for postprocessing data off-line, an optional
Teledyne LeCroy Serial Interface Bus
(LSIB) high-speed 325 MB/s option
provides data transfer 20–100x faster
than any other test instrument. For
remote control, WaveMaster 8 Zi-A
is Class C compliant with the LXI
standard, the latest industry standard
for Ethernet ­remote control operation.
WaveMaster 8 Zi-A supports standard
LXI features such as a LAN interface,
VXI11 Discovery, a web server and
IVI-C & IVI-COM drivers.
X-Stream II Architecture
Optimized for Fast Throughput
Optimized for Long Memory
Optimized for Responsiveness
X-Stream II architecture enables high
throughput of data—even when the
oscilloscope is performing multiple
100 Mpts (or larger) waveforms.
X-Stream II uses variable waveform
segment lengths to enable all processing
intensive calculations to take place in
fast CPU cache memory, thus improving
calculation speed and efficiency. The
result—10–100x faster processing
compared to other oscilloscopes.
X-Stream II has no analysis memory length
restrictions, regardless of analysis type,
since the variable waveform segment
length can always be limited to a size that
can fit in CPU cache memory. Other oscilloscopes with conventional architectures
cannot make this claim, and often have
limitations on analysis memory of 5–20%
the length of their acquisition memory
under the best conditions.
By dynamically allocating buffers to
maximize memory availability, the
WaveMaster 8 Zi-A Series embodies
the fastest front panel responsiveness.
Oscilloscopes from other manufacturers
can suffer from annoying delays during
simple zoom operations, but not
WaveMaster 8 Zi-A.
Learn More
Learn More
teledynelecroy.com/dl/5213
teledynelecroy.com/dl/5214
9
SERIAL DATA PHYSICAL LAYER COMPLIANCE TESTING
Compliance Testing
Key Features
• F
ull support for Transmitter,
Receiver and Signal Integrity
testing
• T
ransmitter Testing (SDA 8 Zi-A
Serial Data Analyzer)
– QualiPHY Compliance
Test Packages simplify
test and reporting
– Connection Diagrams ensure
the proper testing configuration
– Report Generation includes all
of the testing values and the
appropriate limits
– Stimulate the DUT for transmitter testing using the PeRT3
• Receiver Testing (PeRT3)
– BER Generator & Detector
– Multichannel Operations
– Protocol Support
– Jitter Tolerance Testing
– Integrated Pattern Generator
– Protocol Level Error Detection
– Stress Injection Capable
– SSC Support
– Pre-emphasis
– Input Sensitivity Testing
• Impedance Testing (SPARQ)
– SPARQ satisfies numerous
transmitter, receiver, cable
and fixture compliance testing
requirements for standards
such as:
• SATA
• SAS
• USB
• Fibre
Channel
• PCI Express
• HDMI
10
•DisplayPort
The combination of the SDA 8 Zi-A
3
Serial Data Analyzer, the PeRT
and the SPARQ provides the most
comprehensive solution for serial
data compliance testing. These
three pieces of equipment enable
a full suite of physical layer compliance testing and debugging ability
that will guarantee the best signal
integrity for your serial data signals.
Transmitter Compliance
Testing
The addition of a QualiPHY
software option to the SDA 8 Zi-A
oscilloscope constitutes the ideal
instrument for physical layer
compliance testing. QualiPHY
reduces the time and ­effort needed
to perform compliance testing on
a wide array of high-speed serial
buses by automating the process
with connection ­diagrams and a
comprehensive report of results
including screenshots. QualiPHY
uses all of the powerful oscilloscope
features to perform the compliance
test quickly and easily.
Receiver Testing
The Protocol Enabled Receiver
Transmitter Tolerance Tester (PeRT3)
fills the space between physical layer
test and protocol layer test, providing
a new, more intelligent capability for
performance testing of receivers and
transmitters. Designed to meet the
test needs of engineers working with
serial data transceivers and other
high-speed serial data communication
systems, the Teledyne LeCroy PeRT3
test system is not just a new
instrument; it’s an entirely new
instrument class.
Complete End-to-end Testing
When using the SDA 8 Zi-A
oscilloscope for transmitter only
testing, the user is still required to
stimulate the product under test to
output the required test patterns.
Likewise, when using the PeRT3 for
receiver only testing, the specifications require the user to calibrate
the jitter output sources prior to
performing the receiver test. When
combining the SDA 8 Zi-A
oscilloscope with the PeRT3,
not only can each of these needs
be met, but all of the testing can be
automated and included in a single
test report.
Automated Compliance
Testing for the Following
Standards:
• 10/100/1000
BaseT ENET
• DisplayPort
• USB 2.0
• HDMI
• MIPI D-PHY
• DDR2 / DDR3
• PCI Express
• SAS
• UWB
• SATA
• USB 3.0
By utilizing the power of the
SDA 8 Zi-A, the PeRT3 and the
SPARQ, the most comprehensive
serial data testing can be performed
with unparalleled simplicity.
Transmitters, receivers, cables and
fixtures can all be characterized to
ensure compliance.
Signal Integrity Testing
The SPARQ Signal Integrity Network
Analyzer performs a wide range
of compliance tests, including:
Impedance, Return Loss, Impedance
Imbalance, Insertion Loss, Crosstalk
(Near- and Far-end), Differentialto-common-mode conversion,
Common-to-differential-mode
conversion, Intra-pair Skew and
Voltage Transfer functions. All
measurements can be made in
differential-mode, common-mode
or single-ended, as applicable.
Data Rate Configuration Chart
Standard
Bit Rate
Minimum
Bandwidth
Recommended
Oscilloscope
PCI Express Gen1
ExpressCard
2.5 Gb/s
2.5 Gb/s
6 GHz
8 GHz
SDA 808Zi-A or Above
SDA 808Zi-A or Above
2.5 Gb/s
2.5 Gb/s
2.7 Gb/s
2.8 Gb/s
3 Gb/s
3.125 Gb/s
3.125 Gb/s
3.125 Gb/s
3.2 Gb/s
3.4 Gb/s
3 Gb/s
4 GT/s
4.25 Gb/s
4.25 Gb/s
5 Gb/s
5 Gb/s
8 Gb/s
5 Gb/s
5.2 Gb/s
5 Gb/s
5.4 Gb/s
6 Gb/s
6 Gb/s
6 Gb/s
6.25 Gb/s
6.4 Gb/s
6.4 Gb/s
10.3125 Gb/s
10.3125 Gb/s
11Gbps
12 Gb/s
25.78125 Gb/s
25–28 Gb/s
8 GHz
8 GHz
8 GHz
8 GHz
8 GHz
8 GHz
8 GHz
8 GHz
8 GHz
8 GHz
10 GHz
10 GHz
13 GHz
13 GHz
13 GHz
13 GHz
13 GHz
13 GHz
13 GHz
13 GHz
16 GHz
16 GHz
16 GHz
16 GHz
16 GHz
16 GHz
16 GHz
20 GHz
20 GHz
25 GHz
25 GHz
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 808Zi-A or Above
SDA 813Zi-A or Above
SDA 808Zi-A or Above
SDA813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 813Zi-A or Above
SDA 816Zi-A or Above
SDA 816Zi-A or Above
SDA 816Zi-A or Above
SDA 816Zi-A or Above
SDA 816Zi-A or Above
SDA 816Zi-A or Above
SDA 816Zi-A or Above
SDA 820Zi-A or Above
SDA 820Zi-A or Above
SDA 825Zi-A or Above
SDA 825Zi-A or Above
30 to 65 GHz
SDA 830Zi-A,
LabMaster 9 Zi-A or
LabMaster 10 Zi
up to 65 GHz
InfiniBand
Serial Rapid I/O
DisplayPort 1.1
HyperTransport 2.0
SAS Gen1
Serial Rapid I/O
SGMII
XAUI
FireWire
HDMI 1.4
SATA Gen2
DDR4
Fibre Channel 4GFC
Serial Rapid I/O
InfiniBand
PCI Express Gen2
PCI Express Gen3
Serial Rapid I/O
HyperTransport 3.0
USB 3.0
DisplayPort 1.2
GDDR5
SAS Gen2
SATA Gen3
Serial Rapid I/O
HyperTransport 3.1
QPI (Quick Path Interconnect)
10GBase-KR
SFI/SFP+
CEI-11
SAS12
InfiniBand
CEI-25/28
The SPARQ can perform all
serial data compliance tests
currently made with TDR or
VNA instruments — only easier.
11
SDAIII-CompleteLinQ Serial Data Analysis Products
The Teledyne LeCroy SDAIII-CompleteLinQ
Serial Data Analysis products contain
multi-lane eye and jitter analysis,
LaneScape™ comparison modes, vertical
noise measurements, and crosstalk analysis
tools. These capabilities provide the
deepest insight into the behavior of
multi- or single-lane serial data systems.
SDAIII Core Toolset
Teledyne LeCroy provides the most complete toolset in
the industry for jitter measurements and eye diagram/
jitter analysis. Rj and Dj are separated and Dj is
decomposed using one of three dual-Dirac algorithms.
Eye diagrams containing all acquired unit intervals are
rendered 10-100x faster than competitive systems.
Eye diagram analysis tools, such as the extrapolated
IsoBER plot, aid
insight. Multiple
additional tools,
such as Tracks,
Histograms,
and Spectrum
waveforms,
Rj+BUj Analysis
enhance the
understanding
of jitter causes.
Sophisticated pattern
analysis tools, such as Intersymbol
Interference (ISI) measurements and plots,
provide deep insight into Data Dependent
Jitter (DDj) behavior.
Eye with IsoBER
Tj
Total Jitter
DDj Analysis with ISI Plot
Rj
Dj
Random Jitter
Deterministic Jitter
BUj
Bounded Uncorrelated Jitter
DDj
Data Dependent Jitter
Pj
OBUj
DCD
ISI
Periodic Jitter
Other Bounded
Uncorrelated Jitter
Duty Cycle
Distortion
Intersymbol
Interference
Pj Analysis
Three Jitter Methodologies
12
Choose from three dual-Dirac models to separate jitter into total, random and deterministic
components (Tj, Rj, Dj). The Spectral Rj Direct method determines Rj directly from the jitter spectrum,
and is the most used algorithm. Spectral Rj+Dj CDF Fit follows the FibreChannel MJSQ model. In
situations where large amounts of crosstalk/BUj raise the spectral noise floor, the NQ-Scale method
will provide more accurate separation of Rj and Dj, and therefore more accurate Tj results.
Optional SDAIII Upgrades
Measure up to 4 Lanes
Simultaneously
“LinQ” products provide extensive multi-lane
analysis capabilities. Quickly understand
lane-to-lane differences in jitter measurements,
eye diagrams, and jitter analysis. Perform
aggressor on/off analysis, and see the results
from both scenarios simultaneously. Save the
analysis of a particular scenario to the Reference
Lane, and configure a LaneScape™ Comparison
mode to compare the Reference to either one,
two or all lanes. Each “lane” can be a different
serial data lane, or a different analysis of data
from a single serial data lane - ideal for comparing
different equalization schemes (using Eye Doctor II option)
or examining system behaviors at different locations in the
lane (using probes or the VirtualProbe option).
Vertical Noise and Crosstalk
The Crosstalk and CrossLinQ packages provide vertical
noise measurements and crosstalk analysis tools for
complete aggressor/victim analysis. Use one of three dualDirac models to measure and separate noise into total (Tn),
random (Rn) and deterministic (Dn) components, and further
decompose Dn into Intersymbol Interference Noise (ISIn)
and Periodic Noise (Pn). Only Teledyne LeCroy performs
this analysis on real-time oscilloscopes. Similar to jitter
analysis, noise can be viewed as a noise track, histogram
and spectrum, providing insight into the vertical noise
resulting from coupling to other active serial data lanes or
other interference sources. The Crosstalk Eye shows the
probabilistic extent of noise both inside and outside the eye,
quickly showing the impact of excessive noise that is not
possible to see in a traditional eye diagram.
CompleteLinQ Does it All
The CompleteLinQ user interface framework provides easy access to all
Learn More:
teledynelecroy.com /SDAIII
View our short introductory video:
http://lcry.us/YB0qyY
features described above, and also integrates EyeDoctorII and VirtualProbe
capabilities for Tx/Rx equalization and fixture/channel de-embedding/emulation.
Order SDAIII-CompleteLinQ to equip your oscilloscope with all of Teledyne
LeCroy’s Serial Data Analysis and Signal Integrity tools.
13
EyeDoctor™II and VirtualProbe Signal Integrity Tools
VirtualProbe shows you the signal
where the probe is not located:
TRANSMITTER
1
2
3
4
Fixture
Backplane
Connector
Trace
RECEIVER
1
Virtually probe the signal at the
transmitter with the fixture present, and then de-embed its
effects form the measurement.
View the signal between structures
to understand losses, ISI and
crosstalk caused by backplanes,
interconnects and connectors.
As signal speeds and data rates
continue to rise, signal integrity
effects such intersymbol interference (ISI) and crosstalk become
more prevalent and challenging.
Use Teledyne LeCroy’s Advanced
Signal Integrity tools to transform
your measured signal to include the
effects of de-embedding, emulation
and equalization algorithms.
De-embed, Equalize and
Emulate with EyeDoctorII
Curious to know what your signal
would look like without fixture
effects? Do you need to understand
how ISI and crosstalk of a modeled
channel will affect your jitter margin?
Or are you seeking to determine
which equalization schemes will do
the best job of opening a closed eye?
The EyeDoctorII package includes
easy configuration of basic de-embed/
emulation scenarios, CTLE, DFE
and FFE equalizers, and transmitter
emphasis/de-emphasis.
14
See what the eye looks like at the
receiver - even if it is not in reach
of a differential probe.
2
3
4
Use EyeDoctor to open the eye
by modeling CTLE, FFE and DFE
equalizers used by your receiver.
Advanced De-embedding,
Emulation and
Virtual Probing
Use EyeDoctorII and
VirtualProbe with SDAIII
CompleteLinQ products
The VirtualProbe package expands
the de-embedding and emulation
capabilities of EyeDoctorII. Configure
a multi-block circuit using modeled
S-parameters or measured with a
Teledyne LeCroy SPARQ (or other
VNA), and VirtualProbe will build the
transfer function that returns the
signal as it would appear before or
after any block in the circuit. The
electrical behavior of a block to reflect
and transmit signals can be included,
added or removed in order to
de-embed or emulate fixtures or channels. Probe loading effects can also
be removed. When used in conjunction with the Crosstalk, CrossLinQ or
CompleteLinQ SDAIII options, crosstalk between lanes can be modeled
using 8 and 12-port S-parameters.
Use the Teledyne LeCroy SPARQ to
measure these S-parameters at a
fraction of the price of a VNA.
When using EyeDoctorII and
VirtualProbe on oscilloscopes enabled
within the SDAIII-CompleteLinQ
products, configure de-embedding,
emulation and equalization from the
same simple flow-chart dialog as all
other serial data analysis features.
When enabled with the “LinQ” option
to enable 4 lanes, users can configure
EyeDoctorII and VirtualProbe configurations on each lane, facilitating rapid
comparisons of different de-embedding and equalization setups.
Learn More
teledynelecroy.com/dl/1023
teledynelecroy.com/vid/M0T6WEC0JYQ
teledynelecroy.com/dl/1216
teledynelecroy.com/dl/1136
SPARQ SIGNAL INTEGRITY NETWORK ANALYZER
The SPARQ signal integrity
network analyzers connect
directly to the device under
test (DUT) and to PC-based
software through a single USB
connection for quick, multi-port
S-parameter measurements.
SPARQ is the ideal instrument
for characterizing multi-port
devices common in signal integrity
applications at a fraction of the
cost of traditional methods.
It is ideal for:
• D
evelopment of measurementbased simulation models
• Design validation
• Compliance testing
• High-performance TDR
• PCB testing
• P
ortable measurement
requirements
High-bandwidth, Multi-port
S-parameters for the Masses
S-parameter measurements are
most often produced by the vector
network analyzer (VNA), a difficult
instrument that is beyond many
budgets. SPARQ is very affordable and
simplifies measurements, making
S-parameters accessible to all.
PC-based, Small and Portable
Traditional instruments that produce
S-parameters are large and fundamentally stationary. The SPARQ, in
contrast, is small and weighs less than
20 lbs. It connects to any standard PC
through a USB 2.0 interface, allowing
SPARQ to run where computing
power is easily upgraded.
S-parameters, Quick
VNA measurements begin with
the unpleasant and complex task
of calibration. This involves multiple
connections that can produce
misleading results due to operator
error. The SPARQ provides calibrated
measurements with a single connection to the DUT and offers simple
setup choices. Start and complete
the entire measurement with a single
button press.
Internal Calibration
SPARQ takes a revolutionary approach
to calibration by building in calibration
standards. This enables measurements to be made without multiple
connection steps and removes the
need for additional electronic calibration (ECAL) modules. Calibration
proceeds quickly without user intervention, so one can calibrate often
without resorting to the use of
out-of-date saved calibrations.
Characterize Crosstalk with
8 and 12-port SPARQs
Don’t just model crosstalk measure it. With the 8 and 12 port
SPARQs, characterize interconnects
with two and three differential lanes
in order to obtain S-parameters
needed for simulations of aggressor/
victim/aggressor topologies.
15
Most complete Debug solution from 4 – 45 GHz
Complete System Debug
Search and Scan
to Understand
Understanding the relationships
between different signals is vital
to fast debug. Only WaveMaster
8 Zi-A combines the best of
general purpose oscilloscopes
(low-speed serial triggers and
decoders, mixed signal capability,
high impedance probing) to allow
easy correlation between lowspeed (serial data control words,
power supply noise, or parallel
data transmissions) and high
speed events.
Search a captured waveform for
hundreds of different measurement
parameters or other conditions using
WaveScan. Set complex conditions,
view search results on the waveform
and in a table, and quickly zoom and
jump to an entry. “Scan” for events
that can’t be triggered in hardware.
Capture 5 ms (100 Mpts) of low-speed and
high-speed waveforms. Decode low and high
speed serial data signals.Easily zoom, and
validate timing relationships between signals.
Freedom from
Probing Limitations
High bandwidth differential probes
(up to 25 GHz), single-ended active
probes, current probes, high-voltage,
and mixed signals all connect to the
WaveMaster 8 Zi-A oscilloscope and
give you a total system view. All
WaveMaster 8 Zi-A oscilloscopes
contain selectable 50 Ω and 1 MΩ
input capability and can be used with
any Teledyne LeCroy probe — passive
or active — without requiring external
adapters or power supplies.
Serial Decode—A Whole
New Meaning to Insight
Over 19 different protocols are supported
with serial decoders (many with hardware
protocol triggers as well). Use ProtoSync
with PCIe, USB, SATA, SAS, and Fibre
Channel to get a dual-display view of both
oscilloscope-generated decode annotations and protocol analyzer software views.
Search on protocol data in a table and
export table data to an Excel file.
Learn More
Get more insight with multiple
views of your serial data
transmissions.
teledynelecroy.com/dl/3005
A
B
More Trigger Capability Isolates
More Problems More Quickly
I2C
A
B
SPI
FlexRay
15 GHz Edge trigger, up to 14.1 Gb/s
I2C
A
B
SPI
Cascade™ triggering, Measurement trigger,
UART
IC
A
and TriggerScan™ are all standard
and allow
2
B
SPI
UART
UART
UART
you to isolate the problem
quickly and begin
FlexRay
FlexRay
2
serial triggers (I C, SPI, UART, RS-232, Audio­
(I2S, LJ, RJ, TDM), CAN, LIN, FlexRay,
MIL-STD-1553 and many others) are
also available.
16
IC
I2C
SPI
A
B
UART
I2C
FlexRay
A
B
IC
2
FlexRay
SPI
LIN
A
B
to focus on the cause. A full range of protocol
Add Mixed Signal Oscilloscope (MSO)
operation using the MS Series mixed
signalI2options
to acquire
to 36 digitalUART
LIN
C
A
SPI up UART
UART
UART
LIN
I2C
A
SPI
lines time-correlated with analog
B
B
waveforms
and
completely
integrated
2
UART
UART
LIN
IC
UART
UA
I2C
A SPI
SPI
with FlexRay
the scope operation. In addition
FlexRay
B
to acquiring digital lines, they are
UART
UART
LIN
also helpful for monitoring low-speed
signals, suchFlexRay
as serial data clock,
FlexRay
data, and chip select signals, thus
2 channels for
preserving the analog
higher speed requirements.
A
LIN B
true-hardware serial trigger available,
10 different SMART triggers, four-stage
Fully Integrated Mixed Signal
Oscilloscope (4 + 36) Option
SPI
UART
UART
15 GHz Edge Trigger
LIN
FlexRay
FlexRay
UART
LIN
SPI
UART
UART
LIN
Deep Insight Clarifies Complex Signals
All Oscilloscope Tools are
not Created Equal
WaveMaster 8 Zi-A has the
deepest standard toolbox of any
oscilloscope, providing more
measure, math, graphing, statistical,
and other tools, and more ways
to leverage the tools to get the
answer faster. While many other
oscilloscopes provide similar looking
tools, Teledyne LeCroy allows the
most flexibility in applying the tools
to any waveform.
Customized Tools
Only Teledyne LeCroy completely
integrates third party programs into
the scope’s processing stream by
allowing you to create and deploy
a new measurement or math algorithm directly into the oscilloscope
environment and display the result
on the oscilloscope in real-time!
There is no need to run a separate program, or ever leave the
oscilloscope window. Use C/C++,
MATLAB, Excel, JScript (JAVA),
and Visual Basic to create your
own customized math functions,
measurement parameters, or other
control algorithms.
Graphical Track, Trend, and
Histogram Views
Track plots measurement values on
the Y-axis and time on the X-axis to
display a measurement change timecorrelated to the original channel
acquisition—perfect for ­intuitive
understanding of behaviors in
frequency modulated (FM) or pulse
width modulated (PWM) circuits and
jitter measurements,
X-Stream II fast throughput streaming architecture makes difficult analysis and deep
insight possible. Above, an FFT is applied to a 50 Mpts waveform to determine root
cause failure. The high frequency resolution this provides enables deep insight into
signal pathologies.
XDEV Customization software package being used to implement a
1 MHz Butterworth filter using MATLAB®.
including modulation or spikes.
Histograms provide a visual
distribution representation of a
large sample of measurements,
allowing faster insight. Trends are
ideal for plotting slow changes in
measurement values.
Capture a single clock channel (yellow)
and display Track graphs and Histograms
simultaneously of multiple jitter parameters.
17
APPLICATION Specific solutions
In addition to the general purpose WaveShape Analysis tools, application specific solutions are
available for Serial Data Compliance, Embedded Design, Digital Design, and Automotive. These
packages extend the Teledyne LeCroy standard measurement and analysis capabilities and
expand your oscilloscope’s utility as your needs change.
Up to 14.1 Gb/s Serial Trigger
The world’s fastest oscilloscope true
hardware protocol trigger - 600 Mb/s
to 14.1 Gb/s! Trigger on up to an
80-bit NRZ serial pattern, or on an
8b/10b symbol string.
Serial Data Trigger/Decode
and PROTObus MAG Serial
Debug Toolkit
ProtoSync Solutions
ProtoSync links physical layer
waveforms, data link layer decode
annotation and table information, and
full transaction layer protocol analysis
together. By simply touching a decode
table entry in the oscilloscope software
or a packet in the protocol analysis
software, all views are automatically
synchronized and aligned for quick and
easy debug. ProtoSync supports
PCIe Gen1/2/3, USB2/3, SATA, SAS,
and Fibre Channel.
18
More than 19 trigger and decode
options provide powerful conditional
serial data protocol triggering, intuitive
color-coded decode overlays, and a
table summary with search and zoom
capabilities. Additionally, PROTObus
MAG (measure, analysis, graph)
Serial Debug Toolkit provides the ability
to quickly validate and analyze serial
data cause-effect relationships and
plot digitally encoded data as an
analog waveform.
Data Transfer Speeds
up to 325 MB/s
Teledyne LeCroy’s Serial Interface
Bus (LSIB) option enables direct
connection to the PCI Express® x4
high-speed data bus in the oscilloscope to enable
data transfer rates up to 325 MB/s—
20–100x faster than other methods.
All that is required is installation of
an optional LSIB card in the oscilloscope and the corresponding host
board (card) for desktop (laptop) PC in
the remote computer. Data transfer
is easily enabled through a supplied
application program interface (API).
Serial Data Compliance
Test Solutions
QualiPHY serial data compliance packages provide easy to use step-by-step
instructions for a broad set of serial
data standards. With fast automated
performance, illustrated instructions
and comprehensive reporting capability,
QualiPHY packages are the best
solution for compliance testing. For
standards not supported with QualiPHY
compliance packages, jitter and eye
diagram test toolsets are generally
included in the SDA 8 Zi-A models.
Digital Filter Software
Package (WM8Zi-DFP2)
Create and apply a variety of FIR
and IIR digital filters to your capture
waveforms or processed traces.
Eye Doctor II—Advanced
Signal Integrity Tools
­(WM8Zi-EYEDRII)
Virtual Probe Signal
Integrity Tools
(WM8Zi-VIRTUALPROBE)
Eye Doctor II and Virtual Probe
Signal Integrity Tools provide the
ability to add precision to signal
integrity measurements by allowing
subtraction of fixture effects and
emulation of emphasis, serial data
channels and provide for receiver
equalization.
Provides ability to define a complex
serial data channel or other complex
topology with up to six circuit
elements that may be embedded or
de-embedded from the signal path,
allowing “probing” at a location
different than the measured position.
Learn More
teledynelecroy.com/dl/1023
teledynelecroy.com/vid/M0T6WEC0JYQ
teledynelecroy.com/dl/1216
teledynelecroy.com/dl/1136
Optical Coherent
Modulation Analysis
For Optical Coherent Modulation
analysis at 112 Gb/s (28 GBaud) or
higher, Teledyne LeCroy’s 8 Zi-A
oscilloscopes are the ideal digital
acquisition system. 20 GHz four
channel models (820Zi-A) with
upgrade paths to 30 or 45 GHz are an
economical and versatile solution
for 28 GBaud testing. For > 28 GBaud
testing, Teledyne LeCroy provides a
variety of bandwidth and channel
count solutions at 30, 36, 50, 60, and
65 GHz. Consult Teledyne LeCroy for
more details.
Learn More
teledynelecroy.com/dl/1314
Spectrum Analyzer Analysis
Package (WM8Zi-SPECTRUM)
Mixed Signal Oscilloscope
Option (MS-250/MS-500)
The Mixed Signal options allow the
WaveMaster 8 Zi-A to convert to a
mixed signal oscilloscope with up to
36 digital channels with 2 GS/s digital
sample rate and 50 Mpts/Ch.
teledynelecroy.com/dl/3005
SPECTRUM converts the controls of
your oscilloscope to those of a spectrum
analyzer. Adjust the frequency span,
resolution and center frequency. Apply
filtering to your signal and watch the
frequency signature change in real
time. A unique peak search labels
spectral components and presents
frequency and level in a table. Touch
any line to move to that peak.
19
High Bandwidth Probing Solutions
Ultra-wideband Architecture
for Superior Signal Fidelity
Teledyne LeCroy’s WaveLink® high
bandwidth differential probes utilize
advanced differential traveling wave
(distributed) amplifier architecture to
achieve superior high frequency analog
broadband performance.
Highest Bandwidth (25 GHz)
Solder-In Lead
Up to 25 GHz Solder-In performance
with system (probe + oscilloscope)
rise times equal to that of the
oscilloscope alone.
Ultra-compact Positioner
(Browser) Tip
The most compact positioner tip
browser with bandwidth up to 22 GHz
makes probing in confined areas easy.
D2505-A-PS 25 GHz probe system with Solder-In lead and browser positioner tip.
Bandwidth
Superior Probe Impedance
Minimizes Circuit Loading
Circuit and signal loading is reduced
by more than 50% with WaveLink high
bandwidth probes compared to
competitive probes. In the mid-band
frequency range, the difference is
even more apparent.
Superior Signal Fidelity and
Lowest Noise
WaveLink has exceptional noise performance. In fact, the combination of the
probe and the oscilloscope results in
measurement performance that is nearly
identical to that of a cable input.
Rise Time (10–90%)
Rise Time (20–80%)
Noise (Probe)
D1305-A,
D1305-A-PS
D1605-A,
D1605-A-PS
D2005-A,
D2005-A-PS
D2505-A,
D2505-A-PS
Dxx05-SI and
Dxx05-PT Tips
13 GHz
Dxx05-SI and
Dxx05-PT Tips
16 GHz
Dxx05-SI and
Dxx05-PT Tips
20 GHz
Dxx05-SI Lead
25 GHz
Dxx05-SI and
Dxx05-PT Tips
32.5 ps (typical)
Dxx05-SI and
Dxx05-PT Tips
28 ps (typical)
Dxx05-SI and
Dxx05-PT Tips
20 ps (typical)
Dxx05-SI Lead
17.5 ps (typical)
Dxx05-SI and
Dxx05-PT Tips
24.5 ps (typical)
Dxx05-SI and
Dxx05-PT Tips
21 ps (typical)
Dxx05-SI and
Dxx05-PT Tips
15 ps (typical)
Dxx05-SI Lead
13 ps (typical)
< 14 nV/√Hz
(1.6 mVrms)
(typical)
< 14 nV/√Hz
(1.8 mVrms)
(typical)
< 18 nV/√Hz
(2.5 mVrms)
(typical)
< 18 nV/√Hz
(2.8 mVrms)
(typical)
Input Dynamic Range
2.0 Vpk-pk, (±1.0 V) (nominal)
Input Common Mode
Voltage Range
±4 V (nominal)
Input Offset Voltage
Range
±2.5 V Differential (nominal)
Impedance
(mid-band, typical)
Dxx05-PT Tip
22 GHz typical
20 GHz guaranteed
Dxx05-PT Tip
19 ps (typical)
Dxx05-PT Tip
14 ps (typical)
Dxx05-SI Lead: 300 Ω at 6 GHz, 525 Ω at 13 GHz,
600 Ω at 16 GHz, 300 Ω at 20 GHz, 120 Ω at 25 GHz
Dxx05-PT Tip: 160 Ω at 6 GHz, 450 Ω at 13 GHz,
240 Ω at 16 GHz, 210 Ω at 20 GHz
Dxx30-PS Differential Probe Systems
Available in 8, 10, and 13 GHz, the Dxx30 models have an optional
SMA/SMP lead set for attaching to the device under test (DUT).
Additionally, solder-in, positioner (browser) tip, and square pin
leads are available.
20
Broad Range of Probing Solutions
WaveMaster 8 Zi-A oscilloscope support a broad range of probes for a variety of applications.
ZS Series High Impedance Active Probes
High-Voltage Differential Probes
• 1
GHz (ZS1000), 1.5 GHz
(ZS1500) and 2.5 GHz (ZS2500)
bandwidths
• 20 MHz and 100 MHz
­bandwidth
• High Impedance (0.9 pF, 1 MΩ)
• 1,000 Vrms common
mode voltage
• E
xtensive standard and
­available probe tip and ground
connection accessories
• 1,400 Vpeak differential
voltage
• EN 61010 CAT III
• ±12 Vdc offset (ZS1500)
• 80 dB CMRR at 50/60 Hz
• Teledyne LeCroy ProBus system
• Teledyne LeCroy ProBus system
High-Voltage Passive Probes
WaveLink Differential Probes
• S
uitable for safe, accurate
high-voltage measurements
• 4 and 6 GHz models
• Solder-In, Browser, Quick
Connect,
Square Pin,
Positioner Tip
and HiTemp Cables
• 1.2 kV to 20 kV
• W
orks with any 1 MΩ
input oscilloscope
Current Probes
WaveLink Medium Bandwidth Differential
Probes
• Range of probes from 30 Arms (50 Apeak)
• 8, 10, and 13 GHz models
to 500 Arms (700 Apeak)
• 3.5 Vp-p Input Dynamic Range
• 2 MHz to 100 MHz bandwidths
• ±4 V Offset
• Solder-in, Positioner
(Browser), Square Pin, and
SMA/SMP lead connection
• S
mall form factor
accommodates large
conductors with
small jaw size
• T
eledyne LeCroy ProBus
system
Optical-to-Electrical Converter (OE695G)
• Frequency range DC to 9.5
GHz (electrical, -3 dB)
ZD Series Differential Probes
• 200 MHz, 500 MHz,
GHz
and 1.5 GHz bandwidths
1
• Reference receiver support
from 8GFC to 10GFC FEC,
or Custom (<12.5 Gb/s)
• Wide range of probing
accessories
• 62.5/125 µm multi-mode or single-mode fiber input
• T
eledyne LeCroy ProBus
system
• +7 dBm (5 mW) max peak optical power
• Broad wavelength range (750 to 1650 nm)
• Low noise (as low as 25 pW/√Hz)
21
specifications
Vertical System
Analog Bandwidth
@ 50 Ω (-3 dB)
(ProLink Input)
Analog Bandwidth
@ 50 Ω (-3 dB)
(ProBus Input)
Analog Bandwidth
@ 1 MΩ (-3 dB)
(ProBus Input)
Rise Time
(10–90%, 50 Ω)
Rise Time
(20–80%, 50 Ω)
Input Channels
Bandwidth Limiters
WaveMaster
804Zi-A (SDA)
WaveMaster
806Zi-A (SDA)
WaveMaster
808Zi-A
(SDA/DDA)
WaveMaster
813Zi-A (SDA)
WaveMaster
816Zi-A (SDA)
WaveMaster
820Zi-A
(SDA, DDA)
4 GHz
(≥ 10 mV/div)
6 GHz
(≥ 10 mV/div)
8 GHz
(≥ 10 mV/div)
13 GHz
(≥ 10 mV/div)
16 GHz
(≥ 10 mV/div)
20 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
49 ps
(test limit,
flatness mode)
37 ps
(flatness mode)
32.5 ps
(test limit,
flatness mode)
24.5 ps
(flatness mode)
28.5 ps
(test limit,
flatness mode)
21.5 ps
(flatness mode)
22 ps
(test limit,
flatness mode)
16.5 ps
(flatness mode)
500 MHz (typical, ≥ 2 mV/div)
95 ps
(test limit,
flatness mode)
71 ps
(flatness mode)
63 ps
(test limit,
flatness mode)
47 ps
(flatness mode)
4 (Any combination of ProLink and ProBus inputs)
20 MHz, 200 MHz,
1 GHz
20 MHz, 200 MHz,
1 GHz, 4 GHz
20 MHz, 200 MHz,
1 GHz, 4 GHz,
6 GHz
20 MHz, 200 MHz, 20 MHz, 200 MHz, 20 MHz, 200 MHz,
1 GHz, 4 GHz,
1 GHz, 4 GHz,
1 GHz, 4 GHz,
6 GHz, 8 GHz
6 GHz, 8 GHz,
6 GHz, 8 GHz,
13 GHz
13 GHz, 16 GHz
Input Impedance
ProLink Inputs: 50 Ω ±2% for ≤ 100 mV/div, 50 Ω ±3% for > 100 mV/div
ProBus Inputs: 50 Ω ±2% or 1 MΩ || 16 pF, 10 MΩ || 11 pF with supplied Probe
Input Coupling
ProLink Inputs: 50 Ω: DC, GND
ProBus Inputs: 1 MΩ: AC, DC, GND; 50 Ω: DC, GND
Maximum Input Voltage 50 Ω (ProLink): ±2 V max. @ ≤ 100 mV/div, 5.5 Vrms @ > 100 mV/div
50 Ω (ProBus): ±5 V max., 3.5 Vrms
1 MΩ (ProBus): 250 V max. (peak AC: < 10 kHz + DC)
22
Channel-Channel
Isolation
DC to 10 GHz: 50 dB (> 315:1)
10 to 15 GHz: 46 dB (> 200:1)
15 to 20 GHz: 40 dB (> 100:1)
(For any two ProLink input channels, same or different v/div settings, typical)
Vertical Resolution
8 bits up to 11 bits with enhanced resolution (ERES)
specifications
Vertical System
Analog Bandwidth
@ 50 Ω (-3 dB)
(2.4/2.92 mm input)
Analog Bandwidth
@ 50 Ω (-3 dB)
(ProLink Input)
Analog Bandwidth
@ 50 Ω (-3 dB)
(ProBus Input)
Analog Bandwidth
@ 1 MΩ (-3 dB)
(ProBus Input)
Rise Time (10–90%, 50 Ω)
Rise Time (20–80%, 50 Ω)
Input Channels
Bandwidth Limiters
Input Impedance
Input Coupling
Maximum Input Voltage
Channel-Channel
Isolation
Vertical Resolution
WaveMaster
825Zi-A (SDA)
WaveMaster
830Zi-A (SDA, DDA)
WaveMaster
845Zi-A (SDA)
25 GHz
30 GHz
45 GHz
20 GHz
(≥ 10 mV/div)
20 GHz
(≥ 10 mV/div)
20 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
3.5 GHz
(≥ 10 mV/div)
15.5 ps
(test limit,
flatness mode)
11.5 ps
(flatness mode)
10.5 ps
(test limit,
flatness mode)
8.0 ps
(flatness mode)
500 MHz (typical, ≥ 2 mV/div)
17.5 ps
(test limit,
flatness mode)
13 ps
(flatness mode)
4 (Any combination of 20 GHz
ProLink inputs or 3.5 GHz ProBus inputs),
3 (1 @ full BW, 2 with ProLink or ProBus input), or 2 (@ full BW)
For ≤ 20 GHz Mode:
20 MHz, 200 MHz, 1 GHz, 4 GHz,
6 GHz, 8 GHz, 13 GHz, 16 GHz
For > 20 GHz Mode: 20 GHz
For ≤ 20 GHz Mode:
20 MHz, 200 MHz, 1 GHz, 4 GHz
6 GHz, 8 GHz, 13 GHz, 16 GHz
For > 20 GHz Mode:
20 GHz, 25 GHz
2.92 mm Inputs:
50 Ω ±2% for ≤ 79 mV/div, 50 Ω ±3% for > 79 mV/div
ProLink Inputs:
50 Ω ±2% for ≤ 100 mV/div, 50 Ω ±3% for > 100 mV/div
ProBus Inputs:
50 Ω ±2% or 1 MΩ || 16 pF, 10 MΩ || 11 pF with supplied Probe
2.92 mm Inputs:
50 Ω: DC, GND
ProLink Inputs:
50 Ω: DC, GND
ProBus Inputs:
1 MΩ: AC, DC, GND; 50 Ω: DC, GND
2.92 mm Inputs:
±2 Vmax @ ≤ 100 mV/div, 5.5 Vrms @ > 100 mV/div
50 Ω (ProLink):
±2 Vmax @ ≤ 100 mV/div, 5.5 Vrms @ > 100 mV/div
50 Ω (ProBus):
±5 Vmax, 3.5 Vrms
1 MΩ (ProBus):
250 Vmax (peak AC: < 10 kHz + DC)
4 (Any combination of 20 GHz
­ProLink inputs or
3.5 GHz ProBus inputs),
3 (1 @ 30 GHz, 2 with either
ProLink or ProBus input),
2 at 30 GHz, 1 at 45 GHz
For ≤ 20 GHz Mode:
20 MHz, 200 MHz, 1 GHz, 4 GHz,
6 GHz, 8 GHz, 13 GHz, 16 GHz
For 25 and 30 GHz Mode:
20 GHz, 25 GHz, 30 GHz
For 45 GHz Mode: none
2.4/2.92 mm Inputs:
50 Ω ±2% for ≤ 79 mV/div,
50 Ω ±3% for > 79 mV/div
ProLink Inputs:
50 Ω ±2% for ≤ 100 mV/div,
50 Ω ±3% for > 100 mV/div
ProBus Inputs:
50 Ω ±2% or 1 MΩ || 16pF,
10 MΩ || 11 pF with supplied Probe
2.4/2.92 mm Inputs:
50 Ω: DC, GND
ProLink Inputs:
50 Ω: DC, GND
ProBus Inputs:
1 MΩ: AC, DC,
50 Ω: DC, GND
2.4/2.92 mm Inputs:
±2 Vmax @ ≤ 100 mV/div,
5.5 Vrms @ > 100 mV/div
50 Ω (ProLink):
±2 Vmax @ ≤ 100 mV/div,
5.5 Vrms @ > 100 mV/div
50 Ω (ProBus):
±5 Vmax, 3.5 Vrms
1 MΩ (ProBus):
250 Vmax (peak AC: < 10 kHz + DC)
DC to 10 GHz: 50 dB (> 315:1)
10 to 15 GHz: 46 dB (> 200:1)
15 to 20 GHz: 40 dB (> 100:1)
20 GHz to Max BW: 30 dB (> 32:1)
(For any two ProLink or 2.92 mm input channels, same or different v/div settings, typical)
8 bits up to 11 bits with enhanced resolution (ERES)
23
specifications
Vertical System
(cont’d)
Sensitivity
WaveMaster
804Zi-A (SDA)
WaveMaster
806Zi-A (SDA)
WaveMaster
808Zi-A
(SDA/DDA)
WaveMaster
813Zi-A (SDA)
WaveMaster
816Zi-A (SDA)
WaveMaster
820Zi-A
(SDA, DDA)
1.90 mVrms
(typical)
2.20 mVrms
(typical)
<300 fsrms
<250 fsrms
50 Ω (ProLink): 2 mV–1 V/div, fully variable (2–9.9 mV/div via zoom)
50 Ω (ProBus): 2 mV–1 V/div, fully variable
1 MΩ (ProBus): 2 mV–10 V/div, fully variable
DC Vertical Gain A
­ ccuracy ±1% F.S. (typical), offset at 0 V; ±1.5% F.S. (test limit), offset at 0 V
(Gain Component of
DC Accuracy)
1.60 mVrms
1.80 mVrms
Vertical Noise Floor
1.20 mVrms
(typical)
(typical)
(typical)
(50 mV/div)
Offset Range
50 Ω (ProLink):
±500 mV @ 2–100 mV/div
±4 V @ > 100 mV/div–1 V/div
50 Ω (ProBus):
±750 mV @ 2–100 mV/div
±4 V @ > 100 mV/div–1 V/div
1 MΩ:
±1 V @ 2–140 mV/div
±10 V @ 142 mV–1.40 V/div
±100 V @ 1.42 V–10 V/div
1.80 mVrms
(typical)
DC Vertical Offset Accuracy ±(1.5% of offset setting + 1.5% F.S. + 1 mV) (test limit)
Horizontal System
Timebases
Time/Division Range
Internal time base common to 4 input channels
20 ps/div–128 s/div, depending on memory length
Real-time Mode: 20 ps/div–64 s/div;
RIS Mode: 20 ps/div–10 ns/div; user selectable at ≤ 10 ns/div;
Roll Mode: 100 ms/div up to 128 s/div, user selectable at ≥ 100 ms/div and ≤ 5 MS/s
Noise
Clock Accuracy
Sample Clock Jitter
Delta Time
Measurement Accuracy
2
2*
Jitter Measurement
Floor
Noise
2
SlewRate
Noise
2
SlewRate
Jitter Between Channels
(TIE, typical, measured at
maximum bandwidth)
Trigger and
Interpolator Jitter
Channel-Channel
Deskew Range
External Time base
Reference (Input)
External Time base
Reference (Output)
24
+ (Sample Clock Jitter)2 secondsrms (TIE)
< 1 ppm + (aging
of 0.5 ppm/yr from last calibration)
SlewRate
Up to 10μs Acquired Time Range: 100 fsrms (Internal Timebase Reference)
Up to 6.4ms Acquired Time Range: 150 fsrms (Internal Timebase Reference)
<500 fsrms
2
Noise
+ (Sample Clock Jitter)2 (RMS) + (clock accuracy * reading) (seconds)
+ (Sample Clock Jitter)2 secondsrms (TIE)
<450 fsrms
2
<425 fsrms
<325 fsrms
+ (Sample Clock Jitter)2 (RMS) + (clock accuracy * reading) (seconds)
< 0.1*psrms SlewRate
(typical, software assisted), 2 psrms (typical, hardware)
±9 x time/div. setting or 25 ns max. (whichever is larger), each channel
10 MHz; 50 Ω impedance, applied at the rear input
10 MHz; 50 Ω impedance, output at the rear
specifications
WaveMaster
825Zi-A (SDA)
Vertical System (cont’d)
50 Ω (2.92 mm):
10 mV–500 mV/div, fully variable
50 Ω (ProLink):
2 mV–1 V/div, fully variable (2–9.9 mV/div via zoom)
50 Ω (ProBus):
2 mV–1 V/div, fully variable
1 MΩ (ProBus)
2 mV–10 V/div, fully variable
Sensitivity
DC Vertical Gain Accuracy
(Gain Component of DC Accuracy)
Vertical Noise Floor
(50 mV/div)
Offset Range
DC Vertical Offset Accuracy
WaveMaster
830Zi-A (SDA, DDA)
WaveMaster
845Zi-A (SDA)
50 Ω (2.4/2.92 mm):
10 mV–500 mV/div, fully variable
50 Ω (ProLink):
2 mV–1 V/div, fully variable
(2–9.9 mV/div via zoom)
50 Ω (ProBus):
2 mV–1 V/div, fully variable
1 MΩ (ProBus):
2 mV–10 V/div, fully variable
±1% F.S. (typical), offset at 0 V; ±1.5% F.S. (test limit), offset at 0 V
2.90 mVrms
(typical)
2.80 mVrms
(typical)
50 Ω (2.92 mm):
±500 mV @ 10–79 mV/div
±4 V @ 80 mV/div–500 mV/div
50 Ω (ProLink):
±500 mV @ 2–100 mV/div
±4 V @ >100 mV/div–1 V/div
50 Ω (ProBus):
±750 mV @ 2–100 mV/div
±4 V @ >100 mV/div–1 V/div
1 MΩ:
±1 V @ 2–128 mV/div
±10 V @ 130 mV–1.28 V/div
±100 V @ 1.3 V–10 V/div
±(1.5% of offset setting + 1.5% F.S. + 1 mV) (test limit)
3.90 mVrms
(typical)
50 Ω (2.4/2.92 mm):
±500 mV @ 10–79 mV/div
±4 V @ 80 mV/div–500 mV/div
50 Ω (ProLink):
±500 mV @ 2–100 mV/div
±4 V @ >100 mV/div–1 V/div
50 Ω (ProBus):
±750 mV @ 2–100 mV/div
±4 V @ > 100 mV/div–1 V/div
1 MΩ:
±1V @ 2–128 mV/div
±10 V @ 130 mV–1.28 V/div
±100 V @ 1.3 V–10 V/div
Horizontal System
Timebases
Time/Division Range
Clock Accuracy
Sample Clock Jitter
Delta Time
Measurement Accuracy
Internal time base common to 4 input channels
For ≥ 25 GHz Mode:
Real-time Mode: 20 ps/div–640 µs/div, depending on memory length
For ≤ 20 GHz Mode: 20 ps/div–128 s/div, depending on memory length
Real-time Mode: 20 ps/div–64 s/div;
RIS Mode: 20 ps/div–10 ns/div, user selectable at ≤10 ns/div;
Noise
Roll Mode: 100
ms/div2 up up to 128 s/div, user2 selectable at ≥ 100 ms/div and ≤ 5 MS/s
+ (Sample Clock Jitter) secondsrms (TIE)
< 1 ppm + (aging
of 0.5 ppm/yr from last calibration)
SlewRate
Up to 10μs Acquired Time Range: 100 fsrms (Internal Timebase Reference)
Up to 6.4ms Acquired Time Range: 150 fsrms (Internal Timebase Reference)
2*
Jitter Measurement
Floor
Noise
2
SlewRate
Noise
2
SlewRate
Jitter Between Channels
(TIE, typical, measured at maximum
bandwidth)
Trigger and
Interpolator Jitter
Channel-Channel
Deskew Range
External Time base
Reference (Input)
External Time base
Reference (Output)
+ (Sample Clock Jitter)2 (RMS) + (clock accuracy * reading) (seconds)
+ (Sample Clock Jitter)2 secondsrms (TIE)
<250 fsrms
2*
Noise
2
+ (Sample Clock Jitter)2 (RMS) + (clock accuracy * reading) (seconds)
< 0.1 psrms SlewRate
(typical, software assisted), 2 psrms (typical, hardware)
±9 x time/div. setting or 25 ns max. (whichever is larger), each channel
10 MHz; 50 Ω impedance, applied at the rear input
10 MHz; 50 Ω impedance, output at the rear
25
specifications
WaveMaster
804Zi-A (SDA)
Acquisition System
WaveMaster
806Zi-A (SDA)
WaveMaster
808Zi-A
(SDA/DDA)
WaveMaster
813Zi-A (SDA)
Single-Shot
Sample Rate/Ch
40 GS/s on 4 Ch
(80 GS/s on 2 Ch using optional WM8Zi-2X80GS External Interleaving Device)
Random Interleaved
Sampling (RIS)
Maximum Trigger Rate
Intersegment Time
Maximum Acquisition
Memory
Standard Memory
(4 Ch / 2 Ch / 1 Ch)
(Number of Segments)
Memory Options
(4 Ch / 2 Ch / 1 Ch)
(Number of Segments)
200 GS/s for repetitive signals (20 ps/div to 10 ns/div)
WaveMaster
816Zi-A (SDA)
WaveMaster
820Zi-A
(SDA, DDA)
1,000,000 waveforms/second (in Sequence Mode, up to 4 channels)
1 µs
256 Mpts/Ch
20M / 20M / 20M (32M / 32M / 32M)
(Memory and Sample Rate can be doubled in 1 or 2 Ch mode with use of WM8Zi-2X80GS External Interleaving Device)
(2000)
S-32 Option (WaveMaster models only):
32M / 32M / 32M
(7,500)
M-64 Option:
64M / 64M / 64M
(15,000)
L-128 Option:
128M / 128M / 128M
(15,000)
VL-256 Option:
256M / 256M / 256M
(15,000)
Note: On all memory options, WM8Zi-2X80GS External Interleaving Device permits 80 GS/s on 1 or 2 Ch with twice the memory)
Acquisition Processing
Averaging
Enhanced Resolution
(ERES)
Envelope (Extrema)
Interpolation
Summed averaging to 1 million sweeps continuous averaging to 1 million sweeps
From 8.5 to 11 bits vertical resolution
Envelope, floor, or roof for up to 1 million sweeps
Linear or Sin x/x
Triggering System
Modes
Sources
Coupling Mode
Pre-trigger Delay
Post-trigger Delay
Hold-off by Time
or Events
Normal, Auto, Single, and Stop
Any input channel, Aux, Aux/10, Line, or Fast Edge. Slope and level unique to each source (except line trigger)
DC, AC, HFRej, LFRej
0–100% of memory size (adjustable in 1% increments of 100 ns)
0–10,000 divisions in real time mode, limited at slower time/div settings or in roll mode
From 2 ns up to 20 s or from 1 to 99,999,999 events
Internal Trigger Range
Trigger Sensitivity
with Edge Trigger
(Ch 1–4)
1.85/2.4/2.92mm Inputs
Trigger Sensitivity
with Edge Trigger
(Ch 1–4) ProBus Inputs
±4.1 div from center
Not Applicable
Trigger Sensitivity
with Edge Trigger
(Ch 1–4)
ProLink Inputs
26
2 div @ < 3.5 GHz
1.5 div @ < 1.75 GHz
1.0 div @ < 200 MHz
(for DC coupling, ≥ 10 mV/div, 50 Ω)
2 div @ < 4 GHz,
2 div @ < 6 GHz
2 div @ < 8 GHz
3 div @ < 13 GHz
1.5 div @ < 3 GHz,
1.5 div @ < 3 GHz
1.5 div @ < 3 GHz
1.5 div @ < 3 GHz
1.0 div @ < 200 MHz, 1.0 div @ < 200 MHz 1.0 div @ < 200 MHz 1.0 div @ < 200 MHz
(for DC, AC,
(for DC, AC,
(for DC, AC,
(for DC, AC,
LFRej coupling,
LFRej coupling,
LFRej coupling,
LFRej coupling,
≥ 10 mV/div, 50 Ω)
≥ 10 mV/div, 50 Ω)
≥ 10 mV/div, 50 Ω)
≥ 10 mV/div, 50 Ω)
3 div @ < 15 GHz
1.5 div @ < 3 GHz
1.0 div @< 200 MHz
(for DC, AC,
LFRej coupling,
≥ 10 mV/div, 50 Ω)
specifications
Acquisition System
Single-Shot
Sample Rate/Ch
Random Interleaved
Sampling (RIS)
Maximum Trigger Rate
Intersegment Time
Maximum Acquisition
Memory
Standard Memory
(4 Ch / 2 Ch / 1Ch)
(Number of Segments)
Memory Options
(2 Ch / 1 Ch for 25 or 30 GHz)
(1 Ch for 45 GHz)
(Number of Segments)
WaveMaster
825Zi-A (SDA)
WaveMaster
830Zi-A (SDA, DDA)
40 GS/s on 4 Ch
(80 GS/s on 2 Ch when operated in ≥ 25 GHz Mode)
WaveMaster
845Zi-A (SDA)
40 GS/s on 4 Ch
(80 GS/s on 2 Ch when operated in
≥ 25 GHz Mode), 120 GS/s on 1 Ch
when operated in 45 GHz Mode)
For ≥ 25 GHz Mode: Not applicable
For < 25 GHz Mode: 200 GS/s for repetitive signals (20 ps/div to 10 ns/div)
1,000,000 waveforms/second (in Sequence Mode, up to 4 channels)
1 µs
512 Mpts/Ch
768 Mpts/Ch
(2 Ch operation)
(1 Ch operation)
40M / 40M (64M / 64M)
60M (96M)
(1000)
(1000)
S-32 Option (WaveMaster models only):
64M / 64M
(3,500)
M-64 Option:
128M / 128M
(7,500)
L-128 Option:
256M / 256M
(15,000)
VL-256 Option:
512M / 512M
(15,000)
Note: In ≤ 20 GHz Modes, reference memory specification
for WaveMaster 820Zi-A.
S-32 Option (WaveMaster models only):
96M
(3,500)
M-64 Option:
192M
(7,500)
L-128 Option:
384M
(15,000)
VL-256 Option:
768M
(15,000)
Note: In ≤ 30 GHz or ≤ 20 GHz Modes,
reference memory specification
for WaveMaster 830Zi-A and
820Zi-A respectively.
Acquisition Processing
Averaging
Enhanced Resolution
(ERES)
Envelope (Extrema)
Interpolation
Summed averaging to 1 million sweeps continuous averaging to 1 million sweeps
From 8.5 to 11 bits vertical resolution
Envelope, floor, or roof for up to 1 million sweeps
Linear or Sin x/x
Triggering System
Modes
Sources
Coupling Mode
Pre-trigger Delay
Post-trigger Delay
Hold-off by Time
or Events
Internal Trigger Range
Trigger Sensitivity
with Edge Trigger
(Ch 1–4) 1.85/2.4/2.92mm Inputs
Normal, Auto, Single, and Stop
Any input channel, Aux, Aux/10, Line, or Fast Edge. Slope and level unique to each source (except line trigger)
DC, AC, HFRej, LFRej
0–100% of memory size (adjustable in 1% increments of 100 ns)
0–10,000 divisions in real time mode, limited at slower time/div settings or in roll mode
From 2 ns up to 20 s or from 1 to 99,999,999 events
±4.1 div from center
3 div @ < 15 GHz
1.5 div @ < 3 GHz
1.0 div @ < 200 MHz (for DC coupling, ≥ 10 mV/div, 50 Ω)
Trigger Sensitivity with Edge Trigger 2 div @ < 3.5 GHz
(Ch 1–4) ProBus Inputs
1.5 div @ < 1.75 GHz
1.0 div @ < 200 MHz
(for DC coupling,≥ 10 mV/div, 50 Ω)
Trigger Sensitivity with Edge Trigger 3 div @ < 15 GHz
(Ch 1–4) ProLink Inputs
1.5 div @ < 3 GHz
1.0 div @< 200 MHz
(for DC, AC,
LFRej coupling,
≥ 10 mV/div, 50 Ω)
27
specifications
Triggering
System (cont’d)
WaveMaster
804Zi-A (SDA)
WaveMaster
806Zi-A (SDA)
WaveMaster
808Zi-A
(SDA/DDA)
WaveMaster
813Zi-A (SDA)
WaveMaster
816Zi-A (SDA)
WaveMaster
820Zi-A
(SDA, DDA)
External Trigger
2 div @ < 1 GHz
Sensitivity (Edge Trigger) 1.5 div @ < 500 MHz
1.0 div @ < 200 MHz
(for DC, coupling)
Max. Trigger Frequency, 2.0 GHz @ ≥ 10 mV/div (minimum triggerable width 200 ps)
SMART Trigger
External Trigger
Aux (±0.4 V); Aux/10 (±4 V)
Input Range
Basic Triggers
Edge
Window
TV-Composite Video
Triggers when signal meets slope (positive, negative, or either) and level condition
Triggers when signal exits a window defined by adjustable thresholds
Triggers NTSC or PAL with selectable line and field HDTV (720p, 1080i, 1080p) with selectable frame rate (50 or 60 Hz) and
Line or CUSTOM with selectable Fields (1–8), Lines (up to 2000), Frame Rates (25, 30, 50, or 60 Hz), Interlacing (1:1, 2:1, 4:1,
8:1), or Synch Pulse Slope (Positive or Negative)
smart Triggers™
State or Edge Qualified
Triggers on any input source only if a defined state or edge occurred on another input source. Holdoff between sources is
­selectable by time or events
In Sequence acquisition mode, triggers repeatably on event B only if a defined pattern, state, or edge (event A)
is satisfied in the first segment of the acquisition. Holdoff between sources is selectable by time or events
Triggers if signal drops out for longer than selected time between 1 ns and 20 s
Logic combination (AND, NAND, OR, NOR) of 5 inputs (4 channels and external trigger input). Each source can be high, low, or
don’t care. The High and Low level can be selected independently. Triggers at start or end of the pattern
Qualified First
Dropout
Pattern
SMART Triggers with Exclusion Technology
Glitch
Width (Signal or Pattern)
Interval (Signal or Pattern)
Timeout
(State/Edge Qualified)
Runt
Slew Rate
Exclusion Triggering
riggers on positive or negative glitches with widths selectable as low as 200 ps to 20 s, or on intermittent faults
T
Triggers on positive, negative, or both widths with widths selectable as low as 200 ps to 20 s, or on intermittent faults
Triggers on intervals selectable between 1 ns and 20 s
Triggers on any source if a given state (or transition edge) has occurred on another source.
Holdoff between sources is 1 ns to 20 s, or 1 to 99,999,999 events
Trigger on positive or negative runts defined by two voltage limits and two time limits. Select between 1 ns and 20 ns
Trigger on edge rates. Select limits for dV, dt, and slope. Select edge limits between 1 ns and 20 ns
Trigger on intermittent faults by specifying the expected behavior and triggering when that condition is not met
Cascade (Sequence) Triggering
Capability
Arm on “A” event, then Trigger on “B” event. Or Arm on “A” event, then Qualify on “B” event, and Trigger on “C” event.
Or Arm on “A” event, then Qualify on “B” then “C” event, and Trigger on “D” event
Cascade A then B: Edge, Window, Pattern (Logic) Width, Glitch, Interval, Dropout, or Measurement. Measurement can be on
Stage B only.
Cascade A then B then C (Measurement): Edge, Window, Pattern (Logic), Width, Glitch, Interval, Dropout, or Measurement.
Measurement can be on Stage C only.
Cascade A then B then C: Edge, Window, Pattern (Logic).
Cascade A then B then C then D: Edge, Window, Pattern (Logic), or Measurement. Measurement can be on Stage D only.
Types
Holdoff
Holdoff between A and B, B and C, C and D is selectable by time (1ns to 20s) or number of events.
Measurement trigger selection as the last stage in a Cascade precludes a holdoff setting between the
prior stage and the last stage.
High-speed Serial Protocol Triggering
Data Rates
Option WM8Zi-6GBIT-80B-8B10B-TD: 600 Mb/s to 6.5 Gb/s, Channel 4 input only
Option WM8Zi-14GBIT-80B-8B10B-TD: 600 Mb/s to 14.1 Gb/s, Channel 4 input only
(Standard on SDA models: 600 Mb/s to 6.5 Gb/s, Channel 4 input only.
Option SDA8Zi-UPG-14GBIT-80B-8B10B-TD: 600 Mb/s to 14.1 Gb/s, Channel 4 input only)
Pattern Length
Clock and Data Outputs
80 bits NRZ, eight 8b/10b symbols
No Clock and Data Recovery outputs provided
Low Speed Serial Protocol Triggering (Optional)
I2C, SPI (SPI, SSPI, SIOP), UART-RS232, CAN, LIN, FlexRay, MIL-STD-1553, AudioBus
Measurement Trigger
Select from a large number of measurement parameters trigger on a measurement value with qualified limits.
Can be used as only trigger or last event in a Cascade Trigger.
28
specifications
Triggering
System (cont’d)
External Trigger Sensitivity
(Edge Trigger)
Max. Trigger Frequency,
SMART Trigger
External Trigger
Input Range
WaveMaster
825Zi-A (SDA)
WaveMaster
830Zi-A (SDA, DDA)
WaveMaster
845Zi-A (SDA)
2 div @ < 1 GHz
1.5 div @ < 500 MHz
1.0 div @ < 200 MHz
(for DC, coupling)
2.0 GHz @ ≥ 10 mV/div (minimum triggerable width 200 ps)
Aux (±0.4 V); Aux/10 (±4 V)
Basic Triggers
Edge
Window
TV-Composite Video
Triggers when signal meets slope (positive, negative, or either) and level condition
Triggers when signal exits a window defined by adjustable thresholds
Triggers NTSC or PAL with selectable line and field HDTV (720p, 1080i, 1080p) with selectable frame rate
(50 or 60 Hz) and Line or CUSTOM with selectable Fields (1–8), Lines (up to 2000), Frame Rates (25, 30, 50, or 60 Hz),
Interlacing (1:1, 2:1, 4:1, 8:1), or Synch Pulse Slope (Positive or Negative)
smart Triggers™
State or Edge Qualified
Qualified First
Dropout
Pattern
riggers on any input source only if a defined state or edge occurred on another input source. Holdoff between
T
sources is selectable by time or events
In Sequence acquisition mode, triggers repeatably on event B only if a defined pattern, state, or edge (event A)
is satisfied in the first segment of the acquisition. Holdoff between sources is selectable by time or events.
Triggers if signal drops out for longer than selected time between 1 ns and 20 s
Logic combination (AND, NAND, OR, NOR) of 5 inputs (4 channels and external trigger input). Each source can be
high, low, or don’t care. The High and Low level can be selected independently. Triggers at start or end of the pattern
SMART Triggers with Exclusion Technology
Glitch
Width (Signal or Pattern)
Interval (Signal or Pattern)
Timeout
(State/Edge Qualified)
Runt
Slew Rate
Exclusion Triggering
Triggers on positive or negative glitches with widths selectable as low as 200 ps to 20 s, or on intermittent faults
Triggers on positive, negative, or both widths with widths selectable as low as 200 ps to 20 s, or on intermittent faults
Triggers on intervals selectable between 1 ns and 20 s
Triggers on any source if a given state (or transition edge) has occurred on another source.
Holdoff between sources is 1 ns to 20 s, or 1 to 99,999,999 events
Trigger on positive or negative runts defined by two voltage limits and two time limits. Select between 1 ns and 20 ns
Trigger on edge rates. Select limits for dV, dt, and slope. Select edge limits between 1 ns and 20 ns
Trigger on intermittent faults by specifying the expected behavior and triggering when that condition is not met
Cascade (Sequence) Triggering
Capability
Types
Holdoff
Arm on “A” event, then Trigger on “B” event. Or Arm on “A” event, then Qualify on “B” event, and Trigger on
“C” event. Or Arm on “A” event, then Qualify on “B” then “C” event, and Trigger on “D” event
Cascade A then B: Edge, Window, Pattern (Logic) Width, Glitch, Interval, Dropout, or Measurement.
Measurement can be on Stage B only.
Cascade A then B then C (Measurement): Edge, Window, Pattern (Logic), Width, Glitch, Interval, Dropout, or
Measurement. Measurement can be on Stage C only.
Cascade A then B then C: Edge, Window, Pattern (Logic).
Cascade A then B then C then D: Edge, Window, Pattern (Logic), or Measurement. Measurement can be on
Stage D only.
Holdoff between A and B, B and C, C and D is selectable by time (1ns to 20s) or number of events.
Measurement trigger selection as the last stage in a Cascade precludes a holdoff setting between the
prior stage and the last stage.
High-speed Serial Protocol Triggering
Data Rates
Pattern Length
Clock and Data Outputs
Option WM8Zi-6GBIT-80B-8B10B-TD: 600 Mb/s to 6.5 Gb/s, Channel 4 input only
Option WM8Zi-14GBIT-80B-8B10B-TD: 600 Mb/s to 14.1 Gb/s, Channel 4 input only
(Note: Channel 3 input will capture signal for triggering when oscilloscope is in ≥25 GHz mode)
(Standard on SDA models: 600 Mb/s to 6.5 Gb/s, Channel 4 input only.
Option SDA8Zi-UPG-14GBIT-80B-8B10B-TD: 600 Mb/s to 14.1 Gb/s, Channel 4 input only)
80 bits NRZ, eight 8b/10b symbols
No Clock and Data Recovery outputs provided
Low Speed Serial Protocol Triggering (Optional)
I2C, SPI (SPI, SSPI, SIOP), UART-RS232, CAN, LIN, FlexRay, MIL-STD-1553, AudioBus
Measurement Trigger
Select from a large number of measurement parameters trigger on a measurement value with qualified limits.
Can be used as only trigger or last event in a Cascade Trigger.
29
specifications
Color Waveform
Display
WaveMaster
804Zi-A (SDA)
WaveMaster
806Zi-A (SDA)
WaveMaster
808Zi-A
(SDA/DDA)
WaveMaster
813Zi-A (SDA)
WaveMaster
816Zi-A (SDA)
WaveMaster
820Zi-A
(SDA, DDA)
Type
Resolution
Number of Traces
Color 15.3" flat panel TFT-Active Matrix LCD with high resolution touch screen
WXGA; 1280 x 768 pixels
Display a maximum of 16 traces (up to 40 with some software options). Simultaneously display channel, zoom, memory and
math traces.
Grid Styles
Auto, Single, Dual, Quad, Octal, X-Y, Single+X-Y, Dual+X-Y
Waveform Representation Sample dots joined, or sample dots only
Integrated Second Display
Supports touch screen integration of user-supplied second display with split-grid capability.
(Note: touch screen driver for second display may not be a Fujitsu driver)
Processor/CPU
Type
Processor Memory
Operating System
Real Time Clock
Intel® Core™ i7-2600 Quad, 2.6 GHz (up to 3.8 GHz in Turbo mode) (or better)
8 GB standard for STD memory (20 Mpt), S-32 and M-64 memory options
16 GB standard for L-128 and VL-256 memory options
Up to 32 GB optional
Microsoft Windows® 7 Professional Edition (64-bit)
Date and time displayed with waveform an in hardcopy files. SNTP support to synchronize to precision internal clocks
Interface
Remote Control
Network Communication
Standard
GPIB Port (Optional)
LSIB Port (Optional)
Ethernet Port
USB Ports
External Monitor Port
Serial Port
Peripheral Bus
Via Windows Automation, or via Teledyne LeCroy Remote Command Set
VXI-11 or VICP, LXI Class C (v1.2) Compliant
Supports IEEE – 488.2
Supports PCIe Gen1 x4 protocol with Teledyne LeCroy supplied API
Supports 10/100/1000BaseT Ethernet interface (RJ45 port)
Minimum 6 total (incl. 3 front panel) USB 2.0 ports support Windows compatible devices
15 pin D-Type WXGA compatible to support customer-supplied external monitor.
Includes support for extended desktop operation with second monitor.
Not Available
Teledyne LeCroy LBUS standard
Power Requirements
Voltage
100–240 VAC ±10% at 45–66 Hz, 100–120 VAC ±10% at 380–420 Hz, Automatic AC Voltage Selection, Installation Category II
Max. Power Consumption 975 W / 975 VA
Environmental
Temperature
(Operating)
Temperature
(Non-Operating)
Humidity
(Operating)
Humidity
(Non-Operating)
Altitude
(Operating)
Random Vibration
(Operating)
Random Vibration
(Non-Operating)
Functional Shock
+5 °C to +40 °C including CD-RW/DVD-ROM drive
–20 °C to +60 °C
% to 80% relative humidity (non-condensing) up to +31 °C.
5
Upper limit derates to 50% relative humidity (non-condensing) at +40 °C
5% to 95% relative humidity (non-condensing) as tested per MIL-PRF-28800F
Up to 10,000 ft. (3048 m) at or below +25 °C
0.5 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes
2.4 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes
20 gpeak, half sine, 11 ms pulse, 3 shocks (positive and negative) in each of three orthogonal axes, 18 shocks total
Physical Dimensions
Dimensions (HWD)
Weight
Shipping Weight
14" H x 18.4" W x 16" D (355 x 467 x 406 mm) height excludes feet
51.5 lbs. (23.4 kg)
70 lbs. (31.8 kg)
Certifications
CE Compliant, UL and cUL listed; conforms to EN 61326, EN 61010-1, EN61010-2-030, UL 61010-1 3rd edition, and
CSA C22.2 No. 61010-1-12
Warranty and Service
30
3-year warranty calibration recommended annually.
Optional service programs include extended warranty, upgrades, and calibration services
specifications
Color Waveform Display
Type
Resolution
Number of Traces
Grid Styles
Waveform Representation
WaveMaster
825Zi-A (SDA)
WaveMaster
830Zi-A (SDA, DDA)
WaveMaster
845Zi-A (SDA)
Color 15.3" flat panel TFT-Active Matrix LCD with high resolution touch screen
WXGA; 1280 x 768 pixels
Display a maximum of 16 traces (up to 40 with some software options). Simultaneously display channel, zoom,
memory and math traces.
Auto, Single, Dual, Quad, Octal, X-Y, Single+X-Y, Dual+X-Y
Sample dots joined, or sample dots only
Integrated Second Display
Supports touch screen integration of user-supplied second display with split-grid capability.
(Note: touch screen driver for second display may not be a Fujitsu driver)
Processor/CPU
Type
Processor Memory
Operating System
Real Time Clock
Intel® Core™ i7-2600 Quad, 2.6 GHz (up to 3.8 GHz in Turbo mode) (or better)
8 GB standard for STD memory (20 Mpt), S-32 and M-64 memory options
16 GB standard for L-128 and VL-256 memory options
Up to 32 GB optional
Microsoft Windows® 7 Professional Edition (64-bit)
Date and time displayed with waveform an in hardcopy files. SNTP support to synchronize to precision internal clocks
Interface
Remote Control
Network Communication
Standard
GPIB Port (Optional)
LSIB Port (Optional)
Ethernet Port
USB Ports
External Monitor Port
Serial Port
Peripheral Bus
Via Windows Automation, or via Teledyne LeCroy Remote Command Set
VXI-11 or VICP, LXI Class C (v1.2) Compliant
Supports IEEE – 488.2
Supports PCIe Gen1 x4 protocol with Teledyne LeCroy supplied API
Supports 10/100/1000BaseT Ethernet interface (RJ45 port)
Minimum 6 total (incl. 3 front panel) USB 2.0 ports support Windows compatible devices
15 pin D-Type WXGA compatible to support customer-supplied external monitor.
Includes support for extended desktop operation with second monitor.
Not Available
Teledyne LeCroy LBUS standard
Power Requirements
Voltage
Max. Power Consumption
00–240 VAC ±10% at 45–66 Hz, 100–120 VAC ±10% at 380–420 Hz, Automatic AC Voltage Selection,
1
Installation Category II
1025 W / 1025 VA
Environmental
Temperature
(Operating)
Temperature
(Non-Operating)
Humidity
(Operating)
Humidity
(Non-Operating)
Altitude
(Operating)
Random Vibration
(Operating)
Random Vibration
(Non-Operating)
Functional Shock
+5 °C to +40 °C including CD-RW/DVD-ROM drive
–20 °C to +60 °C
% to 80% relative humidity (non-condensing) up to +31 °C.
5
Upper limit derates to 50% relative humidity (non-condensing) at +40 °C
5% to 95% relative humidity (non-condensing) as tested per MIL-PRF-28800F
Up to 10,000 ft. (3048 m) at or below +25 °C
0.5 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes
2.4 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes
20 gpeak, half sine, 11 ms pulse, 3 shocks (positive and negative) in each of three orthogonal axes, 18 shocks total
Physical Dimension
Dimensions (HWD)
Weight
Shipping Weight
14" H x 18.4" W x 16" D (355 x 467 x 406 mm) height excludes feet
58 lbs. (26.4 kg)
76.0 lbs. (34.5 kg)
60 lbs. (27.2 kg)
78 lbs. (35.5 kg)
Certifications
CE Compliant, UL and cUL listed; conforms to EN 61326, EN 61010-1, EN61010-2-030, UL 61010-1 3rd edition, and
CSA C22.2 No. 61010-1-12
Warranty and Service
3-year warranty calibration recommended annually.
Optional service programs include extended warranty, upgrades, and calibration services
31
specifications
Standard
Standard (cont’d)
Math Tools
Advanced Customization
Display up to 8 math function traces (F1 – F8). The easy-to-use graphical
interface simplifies setup of up to two operations on each function trace,
and function traces can be chained together to perform math-on-math.
Provides capability to create a math function or measurement parameter in
MATLAB, Excel, C++, JavaScript, or Visual Basic Script (VBS) format and insert it
into the oscilloscope’s processing stream. All results are processed and
displayed on the oscilloscope grid, and are available for further processing.
Also permits the creation of customized plug-ins that can be inserted into the
scope user interface, control of the scope via Visual Basic scripts embedded in
customized functions, and use of Teledyne LeCroy’s Custom DSO capabilities.
absolute value
average (summed)
average (continuous)
correlation
(two waveforms)
derivative
deskew (resample)
difference (–)
enhanced resolution
(to 11-bits vertical)
envelope
exp (base e)
exp (base 10)
fft (power spectrum, magnitude,
phase, up to max Mpts)
floor
integral
interpolate (cubic, ­quadratic, sinx/x)
invert (negate)
log (base e)
log (base 10)
product (x)
ratio (/)
reciprocal
rescale (with units)
roof
sparse
square
square root
sum (+)
zoom (identity)
Measure Tools
Display any 12 parameters together with statistics, including their average,
high, low, and standard deviations. Histicons provide a fast, dynamic view of
parameters and wave shape characteristics. Parameter Math allows addition,
subtraction, multiplication, or division of two different parameters.
amplitude
level @ x
rms
area
maximum
std. deviation
base
mean
top
cycles
median
width
data
minimum
median
delay
narrow band phase
phase
∆ delay
narrow band power
time @ minimum (min.)
duty cycle
number of points
time @ maximum (max.)
duration
+ overshoot
∆ time @ level
falltime (90–10%,
– overshoot
∆ time @ level
80–20%, @ level)
from trigger
peak-to-peak
frequency
x @ max.
period
first
x @ min.
risetime (10–90%,
last
20–80%, @ level)
Pass/Fail Testing
Simultaneously test multiple parameters against selectable parameter l­imits or
pre-defined masks. Pass or fail conditions can initiate actions including d
­ ocument
to local or networked files, e-mail the image of the failure, save waveforms, send
a pulse out at the front panel auxiliary BNC output, or (with the GPIB option)
send a GPIB SRQ.
Basic Jitter and Timing Analysis Tools
This package provides toolsets for displaying parameter values vs. time,
statistical views of parameters using histograms, and persistence view math
functions. These tools include:
• “Track” graphs of all parameters, no limitation of number
– Cycle-Cycle Jitter
– N-Cycle
– N-Cycle with
start selection
– Frequency @ level
– Period @ level
– Half Period
– Width @ level
– Time Interval
Error @ level
– Setup
– Hold
– Skew
– Duty Cycle @ level
– Duty Cycle Error
• Histograms expanded with 19 histogram parameters and up to 2 billion events
• Trend (datalog) of up to 1 million events
• Track graphs of all parameters
32
• Persistence histogram, persistence (range, sigma)
Software Options
SDAIII Serial Data Analysis Software (WM8Zi-SDAIII)
(Included in WM8Zi-SDAIII option, Standard on SDA 8 Zi-A and
DDA 8 Zi-A Models)
Total Jitter
A complete jitter measurement and analysis toolset with the
SDAIII-CompleteLinQ user interface framework. The CompleteLinQ framework
provides a single user interface for “LinQ”, “Crosstalk”, “EyeDrII” and
“Virtual Probe” capabilities (purchased separately).
SDAIII provides complete serial data and clock jitter and eye diagram
measurement and analysis capabilities. Eye Diagrams with millions of UI are
quickly calculated from up to 512 Mpt records, and advanced tools may be used
on the Eye Diagram to aid analysis. Complete TIE and Total Jitter (Tj) parameters
and analysis functions are provided. Comparison of eye diagrams and jitter
analysis between captured lanes and one “reference” location is provided.
Includes:
• Time Interval Error (TIE) Measurement Parameter, Histogram, Spectrum and
Jitter Track
• Total Jitter (Tj) Measurement Parameter, Histogram
• Spectrum
• Eye Diagram Display (sliced)
• Eye Diagram IsoBER (lines of constant Bit Error Rate)
• Eye Diagram Mask Violation Locator
• Eye Diagram Measurement Parameters
– Eye Height
– Eye Width
– Mask hits
– One Level
– Eye Crossing
– Mask out
– Zero Level
– Avg. Power
– Bit Error Rate
– Eye Amplitude
– Extinction Ratio
– Slice Width ­(setting)
• Q-Fit Tail Representation
• Bathtub Curve
• Cumulative Distribution Function (CDF)
• PLL Track
Jitter Decompostion Models
Three dual-dirac jitter decomposition methods are provided for maximum
measurement flexibility. Q-Scale, CDF, Bathtub Curve, and all jitter
decomposition measurement parameters can be displayed using any of the
three methods.
• Spectral, Rj Direct
• Spectral, Rj+Dj CDF Fit
• NQ-Scale
Random Jitter (Rj) and Non-Data Dependent Jitter (Rj+BUj) Analysis
• Random Jitter (Rj) Meas Param
• Periodic Jitter (Pj) Meas Param
• Rj+BUj Histogram
• Rj+BUj Spectrum
• Rj+BUj Track
• Pj Inverse FFT
Deterministic Jitter (Dj) Analysis
• Deterministic Jitter (Dj) Measurement Parameter
specifications
Software Options (cont’d)
Software Options (cont’d)
SDAIII Serial Data Analysis Software (continued)
Data Dependent Jitter (DDj) Analysis
• Data Dependent Jitter (DDj) Param
• Duty Cycle Distortion (DCD) Param
• InterSymbol Interference (ISI) Param
• Digital Pattern display
• DDj Plot (by Pattern or N-bit Sequence)
• DDj Histogram
• ISI Plot (by Pattern)
Reference Lane
• Compare current acquisition to Reference with a side-by-side or single (tabbed)
display mode
SDAIII “LinQ” Capability
(SDAIII-LinQ, SDAIII-CrossLinQ, and SDAIII-CompleteLinQ Options)
Clock and Clock-Data Timing Jitter Analysis Package
(WM8Zi-JITKIT)
Provides convenient setup and four views of jitter (statistical, time, spectrum,
and overlaid) for a variety of horizontal, amplitude, and timing parameters. Direct
display of jitter measurement values. Supports multiple simultaneous views with
fast selection of multiple parameter measurements for fast and easy validation.
Cable De-embedding (WM8Zi-CBL-DE-EMBED)
(Standard on SDA 8 Zi-A and DDA 8 Zi-A)
Removes cable effects from your measurements. Simply enter the S-parameters
or attenuation data of the cable(s) then all of the functionality of the SDA 8 Zi can
be utilized with cable effects de-embedded.
8b/10b Decode (WM8Zi-8B10B D)
(Standard on SDA 8 Zi-A and DDA 8 Zi-A)
In addition to all SDAIII capabilities, “LinQ” options includes 4 lanes of simultaneous serial data analysis plus the reference lane. If EyeDrII or VirtualProbe are
purchased with SDAIII “LinQ” capability, then those capabilities are provided for
all four lanes.
Intuitive, color-coded serial decode with powerful search capability enables
­captured waveforms to be searched for user-defined sequences of symbols.
Multi-lane analysis decodes up to four simultaneously captured lanes.
Lanescape Comparison Mode
This package provides a new capability to navigate waveforms in the frequency
domain using spectrum analyzer type controls. FFT capability added to include:
When multiple lanes are enabled for display, Lanescape Comparison Modes is
used. Selections for this mode are as follows:
• Single: One lane is displayed at a time.
• Dual: Two lanes are selected for display.
• Mosaic: All enabled lanes are displayed.
SDAIII “Crosstalk” Capability
(Included in SDAIII-Crosstalk and SDAIII-CrossLinQ Options)
In addition to all SDAIII capabilities, “Crosstalk” options add the following noise
and crosstalk measurements and analysis tools:
• Total, Random and Deterministic noise (Tn, Rn, Dn) measurements
• Breakdown of Dn into InterSymbol Interference noise (ISIn) and
Periodic noise (Pn)
• Noise-based eye height and width: EH(BER) and EW(BER)
• Random noise (Rn) + Bounded Uncorrelated noise (BUn) Noise Histogram
• Q-fit for Noise Histogram
• Rn+BUn Noise Spectrum and Peak threshold
• Pn Inverse FFT Plot
• Rn+BUn Noise Track
• Crosstalk Eye Contour Plot
SDAIII-CompleteLinQ
The ultimate in serial data single or multi-lane link analysis. Provides all the
capabilities mentioned above in SDAIII, “LinQ”, and “Crosstalk”, and also includes EyeDrII and Virtual Probe capabilities.
Spectrum Analyzer Mode (WM8Zi-SPECTRUM)
• Power averaging
• Freq domain parameters
• Power density
• FFT on up to 128 Mpts
• Real and imag components
Disk Drive Measurements Package (WM8Zi-DDM2)
(Standard on DDA 8 Zi-A)
This package provides disk drive parameter measurements and related
mathematical functions for performing disk drive WaveShape Analysis.
Disk Drive Parameters are as follows:
– amplitude ­assymetry
– local base
– local baseline ­separation
– local maximum
– local minimum
– local number
– local peak-peak
– local time between events
– local time between peaks
– local time between troughs
– local time at minimum
– local time at maximum
– local time ­peak-trough
– local time over threshold
– local time ­trough-peak
– local time under threshold
– narrow band phase
– narrow band power
– overwrite
– pulse width 50
– pulse width 50 –
– pulse width 50 +
– resolution
– track average ­amplitude
– track average ­amplitude –
– t rack average ­amplitude +
– auto-correlation s/n
– non-linear transition shift
Eye Doctor II Advanced Signal Integrity Tools (WM8Zi-EYEDRII)
Complete set of channel emulation, de-embedding and receiver equalization
simulation tools. Provides capability to emulate a serial data link, de-embed or
embed a fixture, cable or serial data channel, add or remove emphasis, and perform CTLE, FFE, or DFE equalization. If purchased with SDAIII, then capabilities
are accessed from within the SDAIII-CompleteLinQ user interface framework.
Virtual Probe Signal Integrity Tools
(WM8Zi-VIRTUALPROBE)
Provides ability to define a complex serial data channel or topology with up to
six circuit elements that may be embedded or de-embedded, allowing “probing”
at a location different than the measured position. If purchased with SDAIII and
EyeDrII (or with the EYEDRII-VP or CompleteLinQ options), then capabilities
are accessed from within the single SDAIII-CompleteLinQ user interface
framework.
33
Order Information
Product Description
Product Code
WaveMaster 8 Zi-A Series Oscilloscopes
Product Code
Memory and Sample Rate Options
4 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
WaveMaster 804Zi-A
6 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
WaveMaster 806Zi-A
8 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
WaveMaster 808Zi-A
80 GS/s on 2 Ch Sampling Rate Option for
WaveMaster 8 Zi-A (not available for 825Zi-A, 830Zi-A,
or 845Zi-A). I­ncludes two separate external interleaving
devices with storage case
20 Mpts/Ch Standard Memory for WaveMaster 8 Zi-A.
Includes 8 GB of RAM
13 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
WaveMaster 813Zi-A
32 Mpts/Ch Standard Memory for SDA 8 Zi-A
Includes 8 GB of RAM
16 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
WaveMaster 816Zi-A
20 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
WaveMaster 820Zi-A
25 GHz, 80 GS/s, 2 Ch, 40 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
(20 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch)
30 GHz, 80 GS/s, 2 Ch, 40 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
(20 GHz, 40 GS/s, 4 Ch, 20 Mpts/Ch)
45 GHz, 120 GS/s, 1 Ch, 60 Mpts/Ch WaveMaster
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
(30 GHz, 80 GS/s, 2 Ch, 40 Mpts/Ch; 20 GHz, 40 GS/s,
4 Ch, 20 Mpts/Ch)
WaveMaster 825Zi-A
WaveMaster 830Zi-A
WaveMaster 845Zi-A
WM8Zi-2X80GS
WM8Zi-STD
SDA8Zi-STD
WM8Zi-S-32
WM8Zi-M-64
SDA8Zi-M-64
DDA8Zi-M-64
WM8Zi-L-128
SDA8Zi-L-128
DDA8Zi-L-128
WM8Zi-VL-256
SDA8Zi-VL-256
DDA8Zi-VL-256
32 Mpts/Ch Memory Option for WaveMaster 8 Zi-A
64 Mpts/Ch Memory Option for WaveMaster 8 Zi-A
64 Mpts/Ch Memory Option for SDA 8 Zi-A
64 Mpts/Ch Memory Option for DDA 8 Zi-A
128 Mpts/Ch Memory Option for WaveMaster 8 Zi-A
128 Mpts/Ch Memory Option for SDA 8 Zi-A
128 Mpts/Ch Memory Option for DDA 8 Zi-A
256 Mpts/Ch Memory Option for WaveMaster 8 Zi-A
256 Mpts/Ch Memory Option for SDA 8 Zi-A
256 Mpts/Ch Memory Option for DDA 8 Zi-A
CPU, Computer and Other Hardware Options
4 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
SDA 804Zi-A
6 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
SDA 806Zi-A
8 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
SDA 808Zi-A
13 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
SDA 813Zi-A
16 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
SDA 816Zi-A
Upgrade from 160 GB Hard Drive to 500 GB Hard Drive
WM8Zi-500GB-HD
Additional 160 GB Hard Drive. Includes
WM8Zi-160GB-RHD-02
Windows® 7 OS, Teledyne LeCroy Oscilloscope
Software and Critical Scope Operational
File Duplicates
Additional 500 GB Hard Drive. Includes
WM8Zi-500GB-RHD-02
­Windows 7 OS, Teledyne LeCroy Oscilloscope
Software and Critical Scope Operational
File Duplicates
GPIB Option for Teledyne LeCroy Oscilloscope. HalfGPIB-2
height Card
8 GB to 16 GB CPU RAM Option
WM8Zi-8-UPG-16GBRAM
8 GB to 32 GB CPU RAM Option
WM8Zi-8-UPG-32GBRAM
20 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
SDA 820Zi-A
Serial Data and CrossTalk Analysis
25 GHz, 80 GS/s, 2 Ch, 64 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
(20 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch)
30 GHz, 80 GS/s, 2 Ch, 64 Mpts/Ch Serial Data Analyzer
with 15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
(20 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch)
45 GHz, 120 GS/s, 1 Ch, 96 Mpts/Ch Serial Data Analyzer
with 15.3” WXGA Color Display. 50 Ω and 1 MΩ Input
(30 GHz, 80 GS/s, 2 Ch, 64 Mpts/Ch; 20 GHz, 40 GS/s,
4 Ch, 32 Mpts/Ch)
SDA 825Zi-A
SDA 8 Zi-A Series Serial Data Analyzers
DDA 8 Zi-A Series Oscilloscopes
SDA 830Zi-A
SDA 845Zi-A
8 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch DDA with
15.3” WXGA Color Display. 50 Ω and 1 MΩ Input
20 GHz, 40 GS/s, 4 Ch, 32 Mpts/Ch DDA with
15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
DDA 808Zi-A
30 GHz, 80 GS/s, 2 Ch, 64 Mpts/Ch DDA with
15.3" WXGA Color Display. 50 Ω and 1 MΩ Input
(30 GHz, 80 GS/s, 2 Ch, 64 Mpts/Ch; 20 GHz, 40
GS/s, 4 Ch, 32 Mpts/Ch)
DDA 830Zi-A
DDA 820Zi-A
Included with Standard Configuration
÷10, 500 MHz Passive Probe (Qty. 4 on 4 – 20 GHz units,
Qty. 2 on 25 – 45 GHz units))
ProLink to SMA Adapter: 4 each (for 4 – 8 GHz units)
ProLink to K/2.92 mm Adapter: 4 each (for 13 – 45 GHz units)
Optical 3-button Wheel Mouse, USB 2.0
Protective Front Cover
Printed Getting Started Manual
Anti-virus Software (Trial Version)
Microsoft Windows 7 License
Commercial NIST Traceable Calibration with Certificate
Power Cable for the Destination Country
3-year Warranty
34
Product Description
LPA-SMA-A
LPA-K-A
Bundle - Multi-Lane SDA LinQ
WM8Zi-SDAIII-CompleteLinQ
Framework, including Eye, Jitter, Noise,
SDA8Zi-CompleteLinQ
Crosstalk Measurements, with EyeDrII
DDA8Zi-CompleteLinQ
and VirtualProbe
Multi-Lane Serial Data Analysis LinQ
WM8Zi-SDAIII-CrossLinQ
Framework, Eye, Jitter, Noise and
SDA8Zi-CrossLinQ
Crosstalk Measurements
DDA8Zi-CrossLinQ
Multi-Lane Serial Data Analysis LinQ
WM8Zi-SDAIII-LinQ
Framework, Eye and Jitter
SDA8Zi-LinQ
Measurements
DDA8Zi-LinQ
Single-Lane Serial Data Analysis
WM8Zi-SDAIII-Crosstalk
Framework, Eye, Jitter, Noise and
SDA8Zi-Crosstalk
Crosstalk Measurements
DDA8Zi-Crosstalk
Single-Lane Serial Data Analysis Framework, Eye
WM8Zi-SDAIII
and Jitter Measurements
Signal Integrity Toolkits
Advanced De-embedding, Emulation
and Virtual Probing Toolkit
Signal Integrity Toolkit - Channel & Fixture
De-embedding/Emulation, Tx/Rx Equalization
Bundle - EyeDrII and VirtualProbe Toolkits
Cable De-embed Option
WM8Zi-VIRTUALPROBE
WM8Zi-EYEDRII
WM8Zi-EYEDRII-VP
WM8Zi-CBL-DE-EMBED
Order Information
Product Description
Serial Data Compliance
Product Code
QualiPHY Enabled 10GBase-KR Software Option
QPHY-10GBase-KR
QualiPHY Enabled BroadR-Reach Software Option
QPHY-BroadR-Reach
QualiPHY Enabled DDR2 Software Option
QPHY-DDR2
QualiPHY Enabled DDR3 Software Option
QPHY-DDR3
QualiPHY Enabled DisplayPort Software Option
QPHY-DisplayPort
QualiPHY Enabled Ethernet 10/100/1000BT Software Option
QPHY-ENET*
QualiPHY Enabled HDMI Software Option
QPHY-HDMI†
QualiPHY Enabled LPDDR2 Software Option
QPHY-LPDDR2
QualiPHY Enabled MIPI D-PHY Software Option
QPHY-MIPI-DPHY
QualiPHY Enabled MOST50 ePHY Software Option
QPHY-MOST50e
QualiPHY Enabled MOST150 oPHY Software Option
QPHY-MOST150o
QualiPHY Enabled PCIe 3.0 Software Option
QPHY-PCIe3
QualiPHY Enabled PCIe Gen1 Software Option
QPHY-PCIe
QualiPHY Enabled SATA Software Option
QPHY-SATA-TSG-RSG
QualiPHY Enabled SAS-2 Software Option
QPHY-SAS2
QualiPHY Enabled SFI Software Option
QPHY-SFI
QualiPHY Enabled USB 2.0 Software Option
QPHY-USB‡
QualiPHY Enabled SuperSpeed USB Transmitter/
QPHY-USB3-Tx-Rx
­Receiver Compliance Software Option
* TF-ENET-B required. † TF-HDMI-3.3V-QUADPAK required. ‡ TF-USB-B required.
PCI Express, SuperSpeed USB (USB 3.0) and SATA Complete Hardware/Software
Test Solutions are available. Consult Factory.
Serial Data Test Fixtures
10/100/1000Base-T Ethernet Test Fixture
Telecom Adapter Kit 100 Ω Bal., 120 Ω Bal., 75 Ω Unbal.
HDMI 50Ω Pull-Up Terminator
HDMI Pull-Up Terminator Quad Pack
SATA 1.5 Gb/s, 3.0 Gb/s and 6.0 Gb/s
Compliance Test Fixture
SATA 1.5 Gb/s, 3.0 Gb/s and 6.0 Gb/s
Compliance Test Fixture Measure Kit
USB 2.0 Compliance Test Fixture
SuperSpeed USB Compliance Test Fixture
2 x BNC to SMA Adapter
2 x 18 inch SMA to SMA Cable
2 x 36 inch SMA to SMA Cable
100 ps Rise Time Filter
150 ps Rise Time Filter
20 dB SMA Attenuators
TF-ENET-B*
TF-ET
TF-HDMI-3.3V
TF-HDMI-3.3V-QUADPAK
TF-SATA-C
TF-SATA-C-KIT
TF-USB-B
TF-USB3
ENET-2ADA-BNCSMA
ENET-2CAB-SMA018
ENET-2CAB-SMA036
RISE-TIME-FILTER-100PS
RISE-TIME-FILTER-150PS
20DB-SMA-ATTENUATOR
*Includes ENET-2CAB-SMA018 and ENET-2ADA-BNCSMA
Serial Data Triggers and Decoders
600 Mb/s to 6.5 Gb/s High-speed 80bit NRZ
WM8Zi-6GBIT-80B-8B10B-TD
and 8b/10b Symbol Serial Pattern Trigger
Option for WaveMaster 8 Zi/Zi-A
Oscilloscopes and Disk Drive Analyzers.
Also includes 8b/10b Decode.
(Standard on SDA 8 Zi-A)
600 Mb/s to 14.1 Gb/s 80-bit NRZ
WM8Zi-14GBIT-80B-8B10B-TD
and 8b/10b Symbol Serial Trigger.
SDA8Zi-UPG-14GBIT-80B-8B10B-TD
Also includes 8b/10b Decode.
64b/66b Decode Annotation Option
WM8Zi-64b66b D
8b/10b Decode Decode Annotation Option
WM8Zi-8B10B D
Ethernet 10G Decode Option
WM8Zi-ENET10Gbus D
PCI Express Decode Annotation Option
WM8Zi-PCIEbus D
USB 3.0 Decode Annotation Option
WM8Zi-USB3bus D
USB 2.0 Decode Annotation Option
WM8Zi-USB2bus D
USB2-HSIC Decode Option
WM8Zi-USB2-HSICbus D
SATA Decode Annotation Option
WM8Zi-SATAbus D
SAS Decode Annotation Option
WM8Zi-SASbus D
Fibre Channel Decode Annotation Option
WM8Zi-FCbus D
D-PHY Decode Option
WM8Zi-DPHYbus D
Product Description
Serial Data Triggers and Decoders (cont’d)
DigRF 3G Decode Option
DigRF v4 Decode Option
Audiobus Trigger and Decode Option
for I2S, LJ, RJ, and TDM
Audiobus Trigger, Decode, and Graph Option
for I2S, LJ, RJ, and TDM
Product Code
WM8Zi-DigRF3Gbus D
WM8Zi-DIGRFv4bus D
WM8Zi-Audiobus TD
WM8Zi-Audiobus TDG
MIPI D-PHY Decode Annotation Option
WM8Zi-DPHYbus D
MIPI D-PHY Decode and Physical Layer Test Option
WM8Zi-DPHYbus DP
MIPI M-PHY Decode Annotation Option
WM8Zi-MPHYbus D
MIPI M-PHY Decode Annotation and
WM8Zi-MPHYbus DP
Physical Layer Test Option
I2C Bus Trigger and Decode Option
WM8Zi-I2Cbus TD
SPI Bus Trigger and Decode Option
WM8Zi-SPIbus TD
LIN Trigger and Decode Option
WM8Zi-LINbus TD
UART and RS-232 Trigger
WM8Zi-UART-RS232bus TD
and Decode Option
FlexRay Trigger and Decode Option
WM8Zi-FlexRaybus TD
FlexRay Trigger, Decode, and
WM8Zi-FlexRaybus TDP
Physical Layer Test Option
CANbus TD Trigger and Decode Option
WM8Zi-CANbus TD
CANbus TDM Trigger, Decode and Measure/
WM8Zi-CANbus TDM
Graph Option
MIL-STD-1553 Trigger and Decode Option
WM8Zi-1553 TD
ARINC 429 Symbolic Decode Option
WM8Zi-ARINC429bus DSymbolic
PROTObus MAG Serial Debug Toolkit
WM8Zi-PROTObus MAG
Decode Annotation and Protocol Analyzer
WM8Zi-ProtoSync
­Synchronization Software Option
Decode Annotation and Protocol Analyzer
WM8Zi-ProtoSync-BT
+ BitTracer Synchronization Software Option
High-speed Digitizer Output
High-speed PCIe Gen1 x4 Digitizer Output
PCI Express x1 Host Interface Board for Desktop PC
PCI Express x1 Express Card Host Interface
for Laptop Express Card Slot
PCI Express x4 3-meter Cable
with x4 Cable Connectors Included
PCI Express x4 7-meter Cable
with x4 Cable Connectors Included
LSIB-1
LSIB-HOSTBOARD
LSIB-HOSTCARD
LSIB-CABLE-3M
LSIB-CABLE-7M
Mixed Signal Testing Options
500 MHz, 2 GS/s, 18 Ch, 50 Mpts/Ch
Mixed Signal Oscilloscope Option
250 MHz, 1 GS/s, 36 Ch, 25 Mpts/Ch
(500 MHz, 18 Ch, 2 GS/s, 50 Mpts/Ch Interleaved)
Mixed Signal Oscilloscope Option
250 MHz, 1 GS/s, 18 Ch, 10 Mpts/Ch
Mixed Signal Oscilloscope Option
MS-500
MS-500-36
MS-250
General Purpose and Application Specific Software Options
Spectrum Analyzer and Advanced FFT Option
Digital Filter Software Package
Serial Data Mask Software Package
Disk Drive Measurements Software Package
Disk Drive Analyzer Software Package
Advanced Optical Recording Measurement Package
Electrical Telecom Mask Test Software Package
EMC Pulse Parameter Software Package
Power Measure Analysis Software Package
Clock Jitter Analysis with Four Views Software Package
WM8Zi-SPECTRUM
WM8Zi-DFP2
WM8Zi-SDM
WM8Zi-DDM2
WM8Zi-DDA
WM8Zi-AORM
WM8Zi-ET-PMT
WM8Zi-EMC
WM8Zi-PMA2
WM8Zi-JITKIT
35
Order Information
Product Description
Product Code
General Accessories
Keyboard, USB
Probe Deskew and Calibration Test Fixture
Hard Carrying Case
Soft Carrying Case
Rackmount Accessory for WM8Zi
ProLink to SMA Adapter
Kit of ProLink to SMA Adapters
ProLink to K/2.92 mm Adapter
Kit of ProLink to K/2.92 mm Adapters
Oscilloscope Cart with Additional Shelf and Drawer
Oscilloscope Cart
KYBD-1
TF-DSQ
WM8Zi-HARDCASE
WM8Zi-SOFTCASE
WM8Zi-RACKMOUNT
LPA-SMA-A
LPA-SMA-KIT-A
LPA-K-A
LPA-K-KIT-A
OC1024
OC1021
Probes and Probe Accessories
1.5 GHz, 0.9 pF, 1 MΩ High Impedance Active Probe
ZS1500
2.5 GHz, 0.9 pF, 1 MΩ High Impedance Active Probe
ZS2500
200 MHz, 3.5 pF, 1 MΩ Active Differential Probe
ZD200
500 MHz, 1.0 pF, Active Differential Probe
ZD500
1 GHz, 1.0 pF, Active Differential Probe
ZD1000
1.5 GHz, 1.0 pF, Active Differential Probe
ZD1500
WaveLink 4 GHz 2.5 Vp-p Differential Probe System
D410-PS
WaveLink 4 GHz 5 Vp-p Differential Probe System
D420-PS
WaveLink 6 GHz 2.5 Vp-p Differential Probe System
D610-PS
WaveLink 6 GHz 5 Vp-p Differential Probe System
D620-PS
WaveLink 8 GHz 3.5Vp-p Differential Probe System
D830-PS
WaveLink 10 GHz 3.5Vp-p Differential Probe System
D1030-PS
WaveLink 13 GHz 3.5Vp-p Differential Probe System
D1330-PS
WaveLink 13 GHz, 2.0 Vp-p Differential Probe System
D1305-A-PS
WaveLink 16 GHz, 2.0 Vp-p Differential Probe System
D1605-A-PS
WaveLink 20 GHz, 2.0Vp-p Differential Probe System
D2005-A-PS
WaveLink 25 GHz, 2.0 Vp-p Differential Probe System
D2505-A-PS
WaveLink 3GHz Differential Amplifier Module with
D300A-AT†
Adjustable Tip
WaveLink 6 GHz Differential Amplifier Module
D600A-AT*
with Adjustable Tip
WaveLink ProLink Platform/Cable Assembly (4 – 6 GHz)
WL-PLink-CASE
WaveLink ProBus Platform/Cable Assembly (4 GHz)
WL-PBus-CASE
SMA/SMP Lead Set for Dxx30 Probes
Dxx30-SMA-SMP Leads
Optical-to-Electrical Converter,
OE695G
DC to 9.5 GHz, 785 to 1550 nm
7.5 GHz Low Capacitance Passive Probe (÷10, 1 kΩ; ÷20, 500 Ω)
PP066
* For a complete probe, order a WL-PLink-CASE Platform/Cable Assembly
with the Adjustable Tip Module.
† For a complete probe, order a WL-PBUS-CASE Platform/Cable Assembly
with the Adjustable Tip Module
variety of other active voltage and current probes are also available.
A
Consult Teledyne LeCroy for more information.
Customer Service
Teledyne LeCroy oscilloscopes and probes are designed, built, and tested to ensure
high reliability. In the unlikely event you experience difficulties, our digital oscilloscopes
are fully warranted for three years and our probes are warranted for one year.
This warranty includes:
• No charge for return shipping
• Long-term 7-year support
• Upgrade to latest software at no charge
1-800-5-LeCroy
teledynelecroy.com
Local sales offices are located throughout the world.
Visit our website to find the most convenient location.
© 2010 by Teledyne LeCroy, Inc. All rights reserved. Specifications, prices, availability, and delivery subject to change without notice.
Product or brand names are trademarks or requested trademarks of their respective holders.
PCI Express® is a registered trademark and/or service mark of PCI-SIG.
MATLAB® is a registered trademark of The MathWorks, Inc. All other product or brand names are trademarks or requested trademarks
of their respective holders.
wm8zi-a-ds-08jul13
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertisement