WaveSurfer 3000
Oscilloscopes
200 MHz – 750 MHz
Key Features
200 MHz, 350 MHz, 500 MHz and
750 MHz bandwidths
Up to 4 GS/s sample rate
Long Memory – up to 10 Mpts/Ch
10.1” touch screen display
MAUI - Advanced User Interface
– Designed for Touch
– Built for Simplicity
– Made to Solve
Advanced Anomaly Detection
– Fast Waveform Update
– History Mode
– WaveScan
Capture, Debug, Analyze, Document
– LabNotebook
– Sequence Mode
– Advanced Active Probe Interface
– Math and Measure
Multi-Instrument Capabilities
– Protocol Analysis - Serial
Trigger and Decode
– Waveform Generation - Built-in
Function Generator
– Logic Analysis - 16 Channel MSO
– Digital Voltmeter
Future Proof
– Upgradeable Bandwidth
– Field Upgradable Software and
Hardware Options
MAUI - A New Wave of Thinking
MAUI is the most advanced
oscilloscope user interface. MAUI
is designed for touch; all important
oscilloscope controls are accessed
through the intuitive touch screen.
MAUI is built for simplicity; time
saving shortcuts and intuitive dialogs
simplify setup. MAUI is made to solve;
deep set of debug and analysis
tools help identify problems and nd
solutions quickly.
Advanced Anomaly Detection
Combining a fast waveform update
rate of 130,000 waveforms/second
with History mode waveform playback
and WaveScan search and nd, the
WaveSurfer 3000 is an outstanding tool
for waveform anomaly detection.
Capture, Debug, Analyze,
Document
The advanced active probe interface
gives tremendous flexibility for
capturing all types of signals. Debug,
analyze and document problems
through the use of powerful math and
measurement capabilities, sequence
mode segmented memory, and
LabNotebook.
Multi-Instrument Capabilities
Beyond traditional oscilloscope
functionality the WaveSurfer 3000
has a variety of multi-instrument
capabilities including, waveform
generation with a built-in function
generator, protocol analysis with serial
data trigger and decode, logic analysis
with an available 16 channel mixed
signal option and digital voltmeter
measurements.
WaveSurfer 3000 oscilloscopes feature the MAUI advanced user
interface with touch screen simplicity to shorten debug time. Quickly
identify and isolate anomalies with WaveScan, Fast Display, and
History mode for faster troubleshooting; LabNotebook enables easy
documentation and convenient collaboration. The advanced probe
interface, upgradable bandwidth and multi-instrument capabilities
provide maximum versatility and investment protection.
2
MAUI – A NEW WAVE OF THINKING
MAUI is the most advanced oscilloscope user interface
developed to put all the power and capabilities of the modern
oscilloscope right at your ngertips. Designed for touch;
all important oscilloscope controls are accessed through the
intuitive touch screen. Built for simplicity; time saving
shortcuts and intuitive dialogs simplify setup. Made to solve;
a deep set of debug and analysis tools helps identify problems
and nd solutions quickly.
Oscilloscopes are constantly evolving to meet the rapidly changing test and measurement needs of today’s cutting edge
designs. Additional complexity and capabilities are introduced with each new feature, and in some cases when capabilities
of other instruments like a protocol analyzer, function generator or logic analyzer are added. With all this added capability
the oscilloscope becomes complex and cumbersome to use. The traditional user interface consisting of knobs, buttons, soft
keys and nested menus is unmanageable and more buttons are typically added to access the new functionality.
MAUI solves the complexity problem. MAUI eliminates the overwhelming number of buttons and knobs providing an intuitive
user interface that is designed for touch, built for simplicity and made to solve without sacricing any features or cutting
edge test capabilities.
MAUI is designed for touch. All
important controls for vertical,
horizontal and trigger are always
one touch away. Touch the
waveform to position and drag a
box around it to zoom in for more
details. Position cursors, congure
measurements and interact with
tables all through simple
touch operation.
Designed for Touch
3
Made to Solve
MAUI is built for simplicity. Basic
waveform viewing and measure-
ment tools as well as advanced
math and analysis capabilities are
seamlessly integrated in a single
user interface. Time saving short-
cuts and intuitive dialogs simplify
setup and shorten debug time.
MAUI is made to solve. Measure all
aspects of a waveform to identify
problems. Debug with a large set of
time saving tools to nd the cause
of problems. Solve problems fast
with powerful analysis tools.
Built for Simplicity
A
B
C
D
A
B
C
Access shortcuts to analysis tools
by touching the waveform.
Congure parameters by touching
measurement results.
Channel, timebase and trigger
descriptors provide easy access to
controls without navigating menus.
DShortcuts to commonly used functions
are displayed at the bottom of the
channel, math and memory menus.
4
ADVANCED ANOMALY DETECTION
WaveScan Advanced Search
Locate unusual events in a single
capture or scan for an anomaly across
many acquisitions over a long period
of time. WaveScan provides powerful
isolation capabilities that hardware
triggers cannot provide.
Select from more than 20 search
modes to nd events on any analog
or digital channel. Since the scanning
modes are not simply copies of the
hardware triggers, the utility and
capability is much higher. There is no
frequency trigger in any oscilloscope,
yet WaveScan allows for frequency to
be quickly scanned, notifying the user
upon a shift in frequency. Searching can
be done based on measured waveform
parameters, runts, and non-monotonic
edges as well as digital patterns.
WaveScan quickly and efciently scans
millions of events looking for unusual
occurrences. Search and scan results
can be seen with annotations directly on
the waveform or in the interactive table.
Quickly zoom to an event to see more
details by simply touching it in the table.
Combining a fast waveform update rate of 130,000 waveforms/second with History mode waveform playback, Pass/Fail
Mask Testing and WaveScan search and nd, the WaveSurfer 3000 is an outstanding tool for waveform anomaly detection.
A powerful set of triggering capabilities ensures that once a problem is detected it can be isolated and analyzed.
Powerful Triggering
Good triggering is essential for effective
debug and with a powerful combination
basic and advanced triggers the
WaveSurfer 3000 ensures that even
the most challenging problems can be
isolated. Basic triggering like edge and
width are great for every day operation.
Advanced triggers like runt or interval
help isolate anomalies quickly. Qualied
triggering allows for conguring a
trigger across multiple channels.
With the MSO leadset connected,
powerful logic triggering can be set up
to catch a parallel pattern of up to
16 digital channels. Analog channels
can be added to the pattern trigger
to congure an analog-digital cross
pattern, mixed signal trigger.
Beyond the standard oscilloscope
triggering, unique serial data triggering
capabilities for I2C, SPI, UART/RS-232,
CAN, CAN FD, LIN and FlexRay add
protocol specic triggering to isolate
activity on a variety of serial busses.
A
B
I2C
SPI
UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2CSPI UART RS-232
A
B
I2C
SPI UART RS-232
A
B
I2CSPI
UART
RS-232
A
B
I2CSPI UART
RS-232
Pass/Fail Mask Testing
Built-in pass/fail mask testing quickly
identies problems and marks the
location. A history of the pass/fail
results can be displayed on the screen.
There are four different conditions that
can be selected to specify a passing
condition: All In, All Out, Any In, and Any
Out. When a failure is found, one or
more of the following actions can
be selected to be performed to
record the results: save a waveform,
stop the acquisition, output and
audible alarm, pulse the aux output
port, save a hardcopy or even save a
LabNotebook entry.
When the acquisition is running, failures
are displayed as a red trace, however
when the acquisition is stopped, a
failure indicator is displayed to clearly
show all failing points. Masks can either
be created using the offline mask maker
utility or created based on a reference
waveform and specifying horizontal and
vertical deltas.
5
History Mode Waveform Playback
Scroll back in time using History Mode to view previous waveforms and isolate anomalies. Use cursors and measurement
parameters to quickly nd the source of problems. History mode is always available with a single button press, no need to
enable this mode and never miss a waveform.
Go Back in Time to Identify the Source of a Problem
Fast Waveform Update
A fast update rate ensures that
no waveform variations or details
are missed. With an update rate
of up to 130,000 waveforms per
second the WaveSurfer 3000 is
able to easily display random or
infrequent events simplifying
anomaly detection, identication
and debug. Rapidly changing
waveforms are easy to see and
visually inspect. Changes over
time can be seen with the inten-
sity graded persistence display.
Rotating and tilting feet provide four different viewing positions.
6
CAPTURE. DEBUG. ANALYZE. DOCUMENT.
Advanced Math Capabilities
A deep set of 20 math functions adds
to the problem solving capability of
WaveSurfer 3000. Math functions
provide quick insight into waveforms
and help point to the cause of the most
challenging problems. Functions like
the powerful FFT provide details of the
frequency domain while averaging
effectively lters noise out of the signal.
Advanced Waveform Capture
with Sequence Mode
Use Sequence mode to save
waveforms into segmented memory.
This is ideal for capturing fast pulses
in quick succession or when captur-
ing events separated by long time
intervals. Combine Sequence mode
with advanced triggers to isolate rare
events over time. Trigger times and
time between segments are provided
for additional insight.
The advanced active probe interface
gives tremendous exibility for
capturing all types of signals. Debug,
analyze and document problems
through the use of powerful math
and measurement capabilities,
sequence mode segmented memory,
and LabNotebook.
Superior Measurement Tools
With 24 measurement parameters,
the WaveSurfer 3000 can measure
and analyze every aspect of analog
and digital waveforms. Statistics
and histicons go beyond traditional
measurement tools providing insight
to how a waveform changes over time
.
Measurement data can be trended
to create a visual representation of
changing measurements.
7
Advanced Probe Interface
The advanced active probe
interface gives tremendous
exibility for measuring high
voltages, high frequencies,
currents, or differential signals.
High Impedance Active Probes
High Bandwidth
Differential Probes
High Voltage Differential
Probes
High Voltage Passive Probes
Current Probes
LabNotebook Documentation Tool
LabNotebook is a one-button tool to save and restore waveforms, measurements and
settings without navigating multiple menus. Saved waveforms can be measured and
analyzed later both on the oscilloscope or offline using the WaveStudio PC Utility.
WaveStudio Oine Analysis Tool
WaveStudio is a fast and easy way to analyze acquired waveforms offline. Offline tools
include x and y axis cursors for quick measurements and 21 built-in automatic
measurements for more precise and accurate results. WaveStudio can also connect to
the oscilloscope for direct data transfer to the PC. Data saved with LabNotebook can
be shared with others using WaveStudio for easy collaboration.
Waveform
V/div
T/div
Memory Length
Sample Rate
Measurement
Math
Screen Capture
Waveform
V/div
T/div
Memory Length
Sample Rate
Measurement
Math
Screen Capture
Waveform
V/div
T/div
Memory Length
Sample Rate
Measurement
Math
Screen Capture
8
MULTI-INSTRUMENT CAPABILITIES
Beyond traditional oscilloscope functionality the WaveSurfer 3000 has a variety of multi-instrument
capabilities including waveform generation with a built-in function generator, protocol analysis with
serial data trigger and decode, and logic analysis with an available 16 channel mixed signal option.
Protocol Analysis with Serial
Trigger and Decode
Debugging serial data busses can be
confusing and time consuming. Time
saving protocol analysis capabilities
are provided by the serial trigger and
decode tools.
Intuitive, Color-Coded Protocol
Decode Overlay
Protocol decoding is shown directly on
the waveform with an intuitive, color-
coded overlay, and presented in binary,
hex or decimal. Decoding is fast even
with long memory and zooming in to
the waveform shows precise byte by
byte decoding.
Powerful Serial Data Triggers
The serial data trigger will quickly iso-
late events on a bus eliminating the
need to set manual triggers hoping to
catch the right information. Trigger
conditions can be entered in binary or
hexadecimal formats and conditional
trigger capabilities allow for triggering
on a range of different events.
Table Summary and Search
To further simplify the debug process
all decoded data can be displayed in a
table below the waveform grid. Selecting
an entry in the table will display just that
event. Additionally, built-in search function-
ality will nd specic decoded values.
Supported Protocols
• I2C
• SPI
• UART / RS-232
• CAN
• LIN
Digital Voltmeter
The Digital Voltmeter option activates an integrated 4-digit digital
voltmeter and 5-digit frequency counter that operates through the
same probes already attached to the oscilloscope channels. Real-time
measurements can be viewed on the screen at all times or view more
details through a dedicated user interface display. Measurements
continue to be updated even when the triggering system is stopped.
The DVM license key can be downloaded at no charge from
teledynelecroy.com/redeem/dvm.
8
9
Logic Analysis with 16 Channel
Mixed Signal Capability
The 16 integrated digital channels and
tools designed to simultaneously view,
measure, and analyze both analog and
digital signals enable fast debugging of
mixed signal designs.
Extensive Triggering
Flexible analog and digital cross-pattern
triggering across all 20 channels
provides the ability to quickly identify
and isolate problems in a mixed signal
environment. Event triggering can be
congured to arm on an analog signal
and trigger on a digital pattern or both
analog and digital channels can be in-
corporated in to a single pattern trigger.
Advanced Digital Debug Tools
Using the powerful parallel pattern
search capability of WaveScan, patterns
across many digital lines can be iso-
lated and analyzed. Identied patterns
are presented in a table with timestamp
information and enables quick search-
ing for each pattern occurrence.
Use a variety of timing parameters to
measure and analyze the characteris-
tics of digital busses. Powerful tools like
trends, statistics and histicons provide
additional insight and help nd
anomalies in digital waveforms.
Quickly see the state of all the digital
lines at the same time using convenient
activity indicators.
Waveform Generation with
Built-in Function Generator
The built-in WaveSource function
generator provides up to 25 MHz
and 125 MS/s waveform generation
capabilities. The function generator
controls are integrated directly into
the oscilloscope with a dedicated user
interface. The integrated function gen-
erator is a convenient time saving tool
allowing for quick and easy generation
of sine, square, pulse, ramp, triangle,
noise and DC waveforms. Additionally,
CSV les saved from an oscilloscope
can be uploaded into the WaveSource
to generate arbitrary waveforms.
Familiar function generator controls
are seamlessly integrated in to the
WaveSurfer 3000 user interface
simplifying the process of generating
waveform stimulus and measuring the
response with the oscilloscope. A rear
panel BNC connector provides easy
access to the generator output.
10
SPECIFICATIONS
WaveSurfer 3022 WaveSurfer 3024 WaveSurfer 3034 WaveSurfer 3054 WaveSurfer 3074
Analog - Vertical
Bandwidth (@ 50Ω) 200 MHz 350 MHz 500 MHz 750 MHz
Rise time 1.75 ns typical 1 ns typical 800 ps typical 550 ps typical
Input Channels 2 4
Vertical Resolution 8-bits; up to 11-bits with enhanced resolution (ERES)
Sensitivity 50 Ω: 1mV/div - 1 V/div; 1 MΩ: 1 mV/div - 10 V/div
DC Gain Accuracy ±(1.5%) Full Scale, Offset at 0V, > 5mV/div; ±(2.5%) < 5 mV/div
BW Limit 20 MHz 20 MHz, 200 MHz
Maximum Input Voltage 50 Ω: 5 Vrms, ±10 V Peak; 1 MΩ: 400 V max (DC + Peak AC ≤ 10 kHz)
Input Coupling 50 Ω: DC, GND; 1 MΩ: AC, DC, GND
Input Impedance 50 Ω ±2.0%, 1 MΩ ±2.0% || 16 pF
Offset Range 50 Ω: 1 mV - 19.8 mV: ±2 V, 20 mV - 100 mV: ±5 V, 102 mV - 198 mV: ±20 V, 200 mV - 1 V: ±50 V
1 MΩ: 1 mV - 19.8 mV: ±2 V, 20 mV - 100 mV: ±5 V, 102 mV - 198 mV: ±20 V, 200 mV - 1 V: ±50 V,
1.02 V - 1.98 V: ±200 V, 2 V - 10 V: ±400 V
Offset Accuracy ±(1.0% of offset value + 1.5%FS + 1 mV)
Analog - Acquisition
Sample Rate (Single-shot) 2 GS/s (4 GS/s interleaved)
Sample Rate (Repetitive) 50 GS/s
Record Length 10 Mpts/ch (all channels)
Acquisition Modes Real Time, Roll, RIS (Random Interleaved Sampling),
Sequence (Segmented Memory up to 1,000 segments with 1μs minimum intersegment time)
Real Time Timebase Range 2 ns/div - 50 s/div 1 ns/div - 50 s/div
RIS Mode Timebase Range 2 ns/div - 10 ns/div 1 ns/div - 10 ns/div
Roll Mode Timebase Range Up to 50 s/div (roll mode is user selectable at ≥ 50 ms/div)
Timebase Accuracy ±10 ppm measured over > 1ms interval
Digital - Vertical and Acquisition (WS3K-MSO Option Only)
Input Channels 16 Digital Channels
Threshold Groupings Pod 2: D15 - D8, Pod 1: D7 - D0
Threshold Selections TTL(+1.4V), 5V CMOS (+2.5V), ECL (-1.3V) or User Dened
Maximum Input Voltage ±30V Peak
Threshold Accuracy ±(3% of threshold setting + 100mV)
Input Dynamic Range ±20V
Minimum Input Voltage Swing 500mVpp
Input Impedance (Flying Leads) 100 kΩ || 5 pF
Maximum Input Frequency 125 MHz
Sample Rate 500 MS/s
Record Length 10MS - 16 Channels
Minimum Detectable Pulse Width 4 ns
Channel-to-Channel Skew ± (1 digital sample interval)
User dened threshold range ±10V in 20mV steps
Trigger System
Modes Auto, Normal, Single, Stop
Sources Any input channel, External, Ext/5, or line; slope and level unique to each source (except for line trigger)
Coupling DC, AC, HFREJ, LFREJ
Pre-trigger Delay 0-100% of full scale
Post-trigger Delay 0-10,000 Divisions
Hold-off 10ns up to 20s or 1 to 100,000,000 events
Internal Trigger Level Range ±4.1 Divisions
External Trigger Level Range Ext: ±610mV, Ext/5: ±3.05V
Trigger Types Edge, Width, Logic (Pattern), TV (NTSC, PAL, SECAM, HDTV - 720p, 1080i, 1080p), Runt, Slew Rate,
Interval (Signal or Pattern), Dropout, Qualied (State or Edge); External and Ext/5 support edge trigger only.
Measure, Zoom and Math Tools
Measurement Parameters Up to 6 of the following parameters can be calculated at one time on any waveform: Amplitude, Area, Base, Delay,
Duty Cycle, Fall Time (90%–10%), Fall Time (80%–20%), Frequency, Maximum, Mean, Minimum, Overshoot+,
Overshoot-, Peak-Peak, Period, Phase, Rise Time (10%–90%), Rise Time (20%–80%), RMS, Skew, Standard
Deviation, Top, Width+, Width-. Statistics and histicons can be added to measurements. Measurements can be gated.
Zooming Use front panel QuickZoom button, or use touch screen or mouse to draw a box around the zoom area.
Math Functions Up to 2 of the following functions can be calculated at one time: Sum, Difference, Product, Ratio, Absolute Value,
Average, Derivative, Enhanced Resolution, Envelope, Floor, Integral, Invert, Reciprocal, Rescale, Roof, SinX/x, Square,
Square Root, Trend, Zoom and FFT (up to 1 Mpts with power spectrum output and rectangular, VonHann, and FlatTop
windows).
Probes
Standard Probes One PP019 (5mm) per channel One PP020 (5mm) per channel
Probing System BNC and Teledyne LeCroy ProBus for Active voltage, current and differential probes
11
SPECIFICATIONS
WaveSurfer 3022 WaveSurfer 3024 WaveSurfer 3034 WaveSurfer 3054 WaveSurfer 3074
Display System
Display Size 10.1” Wide TFT-LCD Touch-Screen
Display Resolution 1024 x 600
Connectivity
Ethernet Port 10/100Base-T Ethernet interface (RJ-45 connector)
Removable Storage (1) MicroSD Port - 8 GB micro SD card installed standard
USB Host Ports (4) USB Ports Total – (2) Front USB Ports
USB Device Port (1) USBTMC
GPIB Port (Optional) Supports IEEE – 488.2
External Monitor Port Standard DB-15 connector (support resolution of 1024x600)
Remote Control Via Windows Automation, or via Teledyne LeCroy Remote Command Set
Network Communication
Standard GPIB IEEE-488.2 and VICP, USBTMC/USB488
Power Requirements
Voltage 100 - 240 VAC ± 10% at 50-60 Hz +/-5%; 100 - 120 VAC ± 10% at 400 Hz +/- 5%; Automatic AC Voltage Selection
Power Consumption (Nominal) 100 W / 100 VA
Power Consumption (Max) 150 W / 150 VA (with all PC peripherals, digital leadset and active probes connected to 4 channels)
Environmental
Temperature Operating: 0 °C to 50 °C; Non-Operating: -30 °C to 70 °C
Humidity Operating: 5% to 90% relative humidity (non-condensing) up to ≤ 30 °C, Upper limit derates to 50% relative humidity
(non-condensing) at +50 °C
Non-Operating: 5% to 95% relative humidity (non-condensing) as tested per MIL-PRF-28800F
Altitude Operating: 3,048 m (10,000 ft) max at ≤ 25C; Non-Operating: Up to 12,192 meters (40,000 ft)
Physical
Dimensions (HWD) 10.63”H x 14.96”W x 4.92”D (270 mm x 380 mm x 125 mm)
Weight 4.81 kg (10.6 lbs)
Regulatory
CE Certication Low Voltage Directive 2006/95/EC; EN 61010-1:2010, EN 61010-2-030:2010
EMC Directive 2004/108/EC; EN 61326-1:2013, EN61326-2-1:2013; RoHS2 Directive 2011/65/EU
UL and cUL Listing UL 61010-1, UL 61010-2-030:2010, 3rd Edition; CAN/CSA C22.2 No. 61010-1-12
Digital Voltmeter (optional)
Functions ACrms, DC, DCrms, Frequency
Resolution ACV/DCV: 4 digits, Frequency: 5 digits
Measurement Rate 100 times/second, measurements update on the display 5 times/second
Vertical Settings Autorange Automatic adjustment of vertical settings to maximize the dynamic range of measurements
WaveSource Function Generator (optional)
General
Max Frequency 25 MHz
Channels 1
Sample Rate 125 MS/s
Arbitrary Waveform
Length 16 kpts
Frequency Resolution 1 μHz
Vertical Resolution 14-bit
Vertical Range ±3V (HiZ); ±1.5V (50 Ω)
Waveform Types Sine, Square, Pulse, Ramp, Noise, DC
Frequency Specication
Sine 1 μHz - 25 MHz
Square/Pulse 1 μHz - 10 MHz
Ramp/Triangular 1 μHz - 300 KHz
Noise 25 MHz (-3dB)
Resolution 1 μHz
Accuracy ±50 ppm, over temperature
Aging ±3 ppm/year, rst year
Output Specication
Amplitude 4 mVpp - 6 Vpp (HiZ); 2 mVpp - 3 Vpp(50 Ω)
Vertical Accuracy ±(0.3dB + 1 mV)
Amplitude Flatness ±0.5dB
DC Offset
Range (DC) ±3V (HiZ); ±1.5V (50 Ω)
Offset Accuracy ±(1% of offset value + 3 mV)
Waveform Output
Impedance 50 Ω ± 2%
Protection Short-circuit protection
Sine Spectrum Purity
SFDR (Non Harmonic) @1.265Vpp
DC-1 MHz -60dBc
1 MHz - 5 MHz -55dBc
5 MHz - 25 MHz -50dBc
Harmonic Distortion @1.265Vpp
DC - 5 MHz -50dBc
5 MHz - 25 MHz -45dBc
Square/Pulse
Rise/fall time 24 ns (10% - 90%)
Overshoot 3% (typical - 1 kHz, 1 Vpp)
Pulse Width 50 ns min.
Jitter 500ps + 10ppm of period (RMS cycle to cycle)
Ramp/Triangle
Linearity 0.1% of Peak value output (typical - 1 kHz, 1 Vpp,
100% symmetric)
Symmetry 0% to 100%
Customer Service
Teledyne LeCroy oscilloscopes and probes are designed, built, and tested to ensure high reliability. In the unlikely event you experience difculties, 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
© 2017 Teledyne LeCroy, Inc. All rights reserved. Specications, prices, availability, and delivery subject to change without notice.
Product or brand names are trademarks or requested trademarks of their respective holders.
wavesurfer3k_ds-14jul17
Local sales oces are located throughout the world.
Visit our website to nd the most convenient location.
1-800-5-LeCroy
teledynelecroy.com
ORDERING INFORMATION
Product Description Product Code
WaveSurfer 3000 Oscilloscopes
200 MHz, 4 GS/s, 2 Ch, 10 Mpts/Ch with
10.1” Touch screen Display
WaveSurfer 3022
200 MHz, 4 GS/s, 4 Ch, 10 Mpts/Ch with
10.1” Touch screen Display
WaveSurfer 3024
350 MHz, 4 GS/s, 4 Ch, 10 Mpts/Ch with
10.1” Touch screen Display
WaveSurfer 3034
500 MHz, 4 GS/s, 4 Ch, 10 Mpts/Ch with
10.1” Touch screen Display
WaveSurfer 3054
750 MHz, 4 GS/s, 4 Ch, 10 Mpts/Ch with
10.1” Touch screen Display
WaveSurfer 3074
Included with Standard Congurations
÷10 Passive Probe (Total of 1 Per Channel), 1 Micro SD card (Installed),
Micro SD card adapter,
Protective Front Cover, Getting Started Guide,
Commercial NIST Traceable Calibration with Certicate, Power Cable for
the Destination Country, 3-year Warranty
General Accessories
External GPIB Accessory USB2-GPIB
Soft Carrying Case WS3K-SOFTCASE
Rack Mount Accessory WS3K-RACK
Local Language Overlays
German Front Panel Overlay WS3K-FP-GERMAN
French Front Panel Overlay WS3K-FP-FRENCH
Italian Front Panel Overlay WS3K-FP-ITALIAN
Spanish Front Panel Overlay WS3K-FP-SPANISH
Japanese Front Panel Overlay WS3K-FP-JAPANESE
Korean Front Panel Overlay WS3K-FP-KOREAN
Chinese (Tr) Front Panel Overlay WS3K-FP-CHNES-TR
Chinese (Simp) Front Panel Overlay WS3K-FP-CHNES-SI
Russian Front Panel Overlay WS3K-FP-RUSSIAN
Multi-Instrument Options
MSO software option and 16 Channel Digital probe leadset WS3K-MSO
MSO License (MS Probe Not Included) WS3K-MSO-LICENSE
Function Generator Option WS3K-FG
CAN and LIN Trigger and Decode Option WS3K-AUTO
CAN FD Trigger and Decode Option WS3K-CAN FDbus TD
I2C, SPI, UART and RS-232 Trigger and Decode Option WS3K-EMB
FlexRay Trigger and Decode Option WS3K-FlexRaybus TD
Product Description Product Code
Probes
250 MHz Passive Probe 10:1, 10 M
Ω
PP019
500 MHz Passive Probe 10:1, 10 M
Ω
PP020
700 V, 15 MHz High-Voltage Differential Probe AP031
200 MHz, 3.5 pF, 1 M
Ω
Active Differential Probe ZD200
1 GHz, 1.0 pF Active Differential Probe, ±8 V ZD1000
500 MHz Differential Probe AP033
Deskew Calibration Source for CP031 and CP030 DCS015
30 A; 50 MHz Current Probe – AC/DC;
30
A
rms
; 50 A
peak
Pulse
CP030
30 A, 10 MHz Current Probe - AC/DC, 30 A rms, 50 A
Peak Pulse, 3 meter cable
CP030-3M
30 A; 100 MHz Current Probe – AC/DC; 30
A
rms
; 50 A
peak
Pulse CP031
150 A, 5 MHz Current Probe - AC/DC, 150 A rms, 500 A
Peak Pulse, 6 meter cable
CP150-6M
150 A; 10 MHz Current Probe – AC/DC; 150 A
rms
; 500
A
peak
Pulse CP150
500 A; 2 MHz Current Probe – AC/DC; 500 A
rms
; 700
A
peak
Pulse CP500
Deskew Calibration Source for CP031,CP031A, CP030,
and CP030A
DCS015
100:1 400 MHz 50 MΩ 1 kV High-voltage Probe HVP120
100:1 400 MHz 50 MΩ 4 kV High-voltage Probe PPE4KV
1000:1 400 MHz 50 MΩ 5 kV High-voltage Probe PPE5KV
1000:1 400 MHz 50 MΩ 6 kV High-voltage Probe PPE6KV
1 GHz, 0.9 pF, 1 M
Ω
High Impedance Active Probe ZS1000
Set of 4 ZS1000, 1 GHz, 0.9 pF, 1 M
Ω
High Impedance Active Probe
ZS1000-QUADPAK
1 kV, 25 MHz High Voltage Differential Probe with 2 m cable HVD3102
1kV, 25 MHz High Voltage Differential Probe without tip
Accessories
HVD3102-NOACC
1 kV, 120 MHz High Voltage Differential Probe with 2 m cable HVD3106
1kV, 120 MHz High Voltage Differential Probe without
tip Accessories
HVD3106-NOACC
1 kV, 80 MHz High Voltage Differential Probe with 6m cable HVD3106-6M
2kV, 120 MHz High Voltage Differential Probe HVD3206
2kV, 80 MHz High Voltage Differential Probe with 6m cable HVD3206-6M
6 kV, 100 MHz High Voltage Differential Probe with 6 m cable HVD3605
Probe Adapters
TekProbe to ProBus Probe Adapter TPA10
Set of 4 TPA10 TekProbe to ProBus Probe Adapters.
Includes soft carrying case.
TPA10-Quadpak
Mouser Electronics
Authorized Distributor
Click to View Pricing, Inventory, Delivery & Lifecycle Information:
Teledyne LeCroy:
WAVESURFER 3022 WAVESURFER 3024 WAVESURFER 3034 WAVESURFER 3054 WAVESURFER3074
WS3K-AUTO WS3K-MSO WS3K-FP-FRENCH WS3K-RACK WS3K-FP-CHNES-TR WS3K-FP-GERMAN WS3K-
EMB WS3K-SOFTCASE WS3K-FP-RUSSIAN WS3K-FP-KOREAN WS3K-FG WS3K-FP-ITALIAN WS3K-FP-
CHNES-SI WS3K-FP-JAPANESE WS3K-FP-SPANISH
