HDO4000A Datasheet by Teledyne LeCroy

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I‘P TELEDYNE LECROY Everywhereyou‘ook‘
200 MHz – 1 GHz
Oscilloscopes
DEBUG IN HIGH DEFINITION
Lowest Noise and
Powerful Toolbox
8000
6000
4000
teledynelecroy.com/hdo
Superior User Experience
Powerful, Deep Toolbox
Exceptional SerialData Tools
HD4096 Technology The HDO4000A with HD4096 Technology provides
exceptional signal fidelity with 12-bit resolution
and a superior oscilloscope experience
to deliver faster time to insight.
2
DEBUG IN HIGH DEFINITION
Experience HD4096 accuracy, detail,
and precision and never use an
8-bit oscilloscope again. Whether
the application is general-purpose
design and debug, high-precision
analog, power electronics, automotive
electronics, mechatronics, or other
specialized applications, the HD4096
technology provides unsurpassed
confidence and measurement
capabilities.
Clean, Crisp Waveforms
When compared to waveforms
acquired and displayed using
conventional 8-bit oscilloscopes,
waveforms captured with HD4096
12-bit technology are dramatically
crisper and cleaner, and are displayed
more accurately.
More Signal Details
16x more resolution provides more
signal detail. This is especially helpful
for wide dynamic range signals in
which a full-scale signal must be
acquired while at the same time very
small amplitude signal details must
be analyzed.
Unmatched Measurement
Precision
HD4096 technology delivers
measurement precision several
times better than conventional 8-bit
oscilloscopes. Higher oscilloscope
measurement precision provides
better ability to assess corner cases
and design margins, perform root
cause analysis, and create the best
possible solution for any discovered
design issue.
High Definition Oscilloscopes with HD Technology have a variety of benefits that allow the user to debug in high
definition. Waveforms displayed by High Definition Oscilloscopes are cleaner and crisper. More signal details can
be seen and measured; these measurements are made with unmatched precision resulting in better test results and
shorter debug time.
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3
HD1024 technology provides 10 bits of
vertical resolution with 4 GHz bandwidth. As
with all members of Teledyne LeCroy’s HDO
family, the HDO9000 utilizes an exceptionally
low-noise system architecture that delivers
outstanding effective number of bits (ENOB).
Dynamic ADC Configuration permits the ADC
to be set to 8, 9, or 10 bits. Optimized filtering
provides additional resolution beyond 10 bits
(extending up to 13.8 bits).
HDO4000A HDO6000A HDO8000A HDO9000
HD Technology
HD4096
12 bits
HD4096
12 bits
HD4096
12 bits
HD1024
10 bits
Bandwidth 200 MHz - 1 GHz 350 MHz - 1 GHz 350 MHz - 1 GHz 1 GHz - 4 GHz
Input Channels 4484
Sample Rate 10 GS/s 10 GS/s 10 GS/s 40 GS/s
Standard Toolbox Basic Advanced Advanced Advanced
Serial Data Tools TD TDME TDME TDME, SDAII, QPHY
User Experience MAUI with OneTouch MAUI with OneTouch MAUI with OneTouch MAUI with OneTouch
Hi Signal to Higli Sample Noise Input Rale12-bii Amplifiers ABC's Law Noise Syslem Architecture fi Wmfi'OO HD04000A has the A" Instance
DEBUG IN HIGH DEFINITION
Deep
Toolbox
HDO4000A has the
greatest breadth
and depth of tools,
ensuring quick
resolution of the
most complicated
debug tasks.
WITH TOOLS
OBSESSED
HD4096
technology
enables 12 bits of
vertical resolution
with 1 GHz bandwidth
Clean, Crisp
Waveforms
More Signal
Details
Unmatched
Measurement
Precision
HD4096
High Definition
Technology
4
Lowest Noise and
Powerful Toolbox
8000
6000
4000
m m m < \9/="" ®="">
The HDO4000A with HD4096 Technology provides
exceptional signal fidelity with 12-bit resolution
and a superior oscilloscope experience
to deliver faster time to insight.
Faster
Time to
Insight
Insight alone is not enough.
Markets and technologies
change too rapidly.
The timing of
critical design
decisions is significant.
HD4096 Technology
Superior User Experience
Powerful, Deep Toolbox
Exceptional
SerialData Tools
1
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Faster Time to Insight is what matters.
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MAUI® – SUPERIOR USER EXPERIENCE
6
MAUI – Most Advanced User Interface was developed to put all
the power and capabilities of the modern oscilloscope right at your
fingertips. 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
find solutions quickly.
Designed for Touch
MAUI is designed for touch. Operate
the oscilloscope just like a phone or
tablet with the most unique touch
screen features on any oscilloscope. All
important controls are always one touch
away. Touch the waveform to position
or zoom in for more details using
intuitive actions.
Built for Simplicity
MAUI is built for simplicity. Basic
waveform viewing and measurement
tools as well as advanced math and
analysis capabilities are seamlessly
integrated in a single user interface.
Time saving shortcuts and intuitive
dialogs simplify setup and shorten
debug time.
Made to Solve
MAUI is made to solve. A deep set of
integrated debug and analysis tools help
identify problems and find solutions
quickly. Unsurpassed integration
provides critical flexibility when
debugging. Solve problems fast with
powerful analysis tools.
A
B
C
Drag to quickly position cursors
on a trace.
Configure parameters by touching
measurement results.
Channel, timebase, and trigger
descriptors provide easy access to
controls without navigating menus.
D
Shortcuts to commonly used functions
are displayed at the bottom of the
channel, math and memory menus.
MAUI with OneTouch
MAUI with OneTouch introduces a
new paradigm for oscilloscope user
experience. Dramatically reduce setup
time with revolutionary drag and drop
actions to copy and setup channels,
math functions, and measurement
parameters without lifting a finger.
Use common gestures like drag, drop,
and flick to instinctively interact with
the oscilloscope. Quickly enable a new
channel, math or measurement using
the “Add New” button and simply turn
off any trace with a flick of the finger.
These OneTouch innovations provide
unsurpassed efficiency in oscilloscope
operation.
E
F
G
A
B
C
D
E
F
G
Use the “Add New” button for
one-touch trace creation.
Drag to change source, copy setup,
turn on new trace, or move waveform
location.
Drag to copy measurement parameters
to streamline setup process.
Unique to OneTouchMAUI
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MAUI® – SUPERIOR USER EXPERIENCE POWERFUL, DEEP TOOLBOX
6
Our heritage
Teledyne LeCroy’s 50+ year heritage
is in processing long records to extract
meaningful insight. We invented the
digital oscilloscope and many of the
additional waveshape analysis tools.
Our obsession
Our tools and operating philosophy
are standardized across much of our
product line. This deep toolbox inspires
insight; and your moment of insight is
our reward.
Our invitation
Our Periodic Table of Oscilloscope
Tools explains the toolsets that
Teledyne LeCroy has deployed in our
oscilloscopes. Visit our interactive
website to learn more about them.
teledynelecroy.com/tools
High Signal to High Sample Noise Input Rate 12-bit Amplifiers ADC's Low Noise\ System Architecture
8
HD4096 TECHNOLOGY – 16X CLOSER TO PERFECT
Teledyne LeCroy HDO high definition oscilloscopes
use unique HD4096 technology to provide superior
and uncompromised measurement performance:
12-bit ADCs with high sample rates
High signal-to-noise amplifiers (55 dB)
Low noise system architecture (to 1 GHz)
Oscilloscopes with HD4096 technology have higher resolution
than conventional 8-bit oscilloscopes (4096 vs. 256 vertical
levels) and low noise for uncompromised measurement
performance. The 12-bit ADCs support capture of fast signals
and oscilloscope bandwidth ratings up to 1 GHz, and Enhanced
Sample Rate to 10 GS/s ensures the highest measurement
accuracy and precision. The high performance input amplifiers
deliver pristine signal fidelity with a 55 dB signal-to-noise ratio.
The low-noise system architecture provides an ideal signal
path to ensure that signal details are delivered accurately to the
oscilloscope display – 16x closer to perfect.
16x more resolution
HD4096 technology provides 12 bits of vertical
resolution with 16x more resolution compared
to conventional 8-bit oscilloscopes. The 4096
discrete vertical levels reduce the quantization
error compared to 256 vertical levels. This
improves the accuracy and precision of the
signal capture and increases measurement
confidence.
16x Closer to Perfect
HD4096 12-bit
oscilloscope
Conventional 8-bit
oscilloscope
Analog signal
9
EXPERIENCE THE DIFFERENCE
Clean, Crisp Waveforms
When compared to waveforms acquired
and displayed using conventional 8-bit
oscilloscopes, waveforms captured
with HD4096 12-bit technology are
dramatically crisper and cleaner, and
are displayed more accurately. Once
you see a waveform acquired with
HD4096 technology, you will not want
to go back to using a conventional 8-bit
oscilloscope.
More Signal Details
16x more resolution provides more signal
detail. This is especially helpful for wide
dynamic range signals in which a full-
scale signal must be acquired
while at the same time very small
amplitude signal details must be
analyzed. 12-bit acquisitions combined
with the oscilloscope’s vertical and
horizontal zoom can be used to obtain
unparalleled insight to system behaviors
and problems.
Unmatched Measurement Precision
HD4096 technology delivers
measurement precision several
times better than conventional 8-bit
oscilloscopes. Higher oscilloscope
measurement precision provides
better ability to assess corner cases
and design margins, perform root cause
analysis, and create the best possible
solution for any discovered
design issue.
Experience HD4096 accuracy, detail, and precision and never
use an 8-bit oscilloscope again. Whether the application is
general-purpose design and debug, high-precision analog,
power electronics, automotive electronics, mechatronics, or
other specialized applications, the HD4096 technology provides
unsurpassed confidence and measurement capabilities.
A
B
C
Clean, Crisp Waveforms | Thin traces show the actual waveform with minimal noise interference
Unmatched Measurement Precision | Measurements are more precise and not affected by quantization noise
More Signal Details | Waveform details lost on an 8-bit oscilloscope can now be clearly seen
8-bit 12-bit
AA
BB
CC
10
HDO4000A AT A GLANCE
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Power Electronics
Measure single-device(s), half,
or Full/H-bridge outputs, including
gate-drive voltages. Measure device
loss or switch-mode power supply
power or control loop performance,
including line harmonics. The best
performing HV probes support full
characterization of all aspects of the
power conversion system.
Automotive Electronics
Automotive electronic control units
(ECUs) are tested to stringent
standards. 12-bits and 250Mpts
provides the amplitude and time
resolution needed for better and more
intuitive cause-effect analog signal
analysis. Deep digital logic capture and
extensive serial data toolsets provides
an all-in-one characterization tool for
the complex, dynamic behavior of the
vehicle ECUs.
HDO4000A oscilloscopes have 4 analog input channels, 12-bit resolution using Teledyne LeCroy’s
HD4096 high definition technology, up to 1 GHz of bandwidth and a compact form factor with a large
12.1” multi-touch display. They are ideal for debug and troubleshooting of power electronics designs,
digital power management or power integrity analysis, automotive electronics systems, and deeply
embedded or mechatronic designs.
Key Features
4 analog channels
12-bit ADC resolution, up to
15-bit with enhanced resolution
200 MHz, 350 MHz, 500 MHz and
1 GHz bandwidths
Long Memory – up to 50 Mpts
Multi-language User Interface
WaveScan - Search and Find
LabNotebook Documentation and
Report Generation
History Mode
Spectrum Analyzer Mode
Power Analysis Software
16 Digital Channel MSO option
Serial Trigger and Decode options
12.1” WXGA multi-touch screen display
Wide probe selection for power
electronics, embedded electronics,
and mechatronics applications
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Only 13 cm (5”) Deep – The most
space-efficient oscilloscope for your
bench from 200 MHz to 1 GHz
12.1” Widescreen (16 x 9) high
resolution WXGA color multi-touch
screen display.
Built-in stylus for touch screen
“Push” Knobs – All knobs have push
functionality that provides shortcuts
to common actions such as Set to
Variable, Find Trigger Level, Zero
Offset, and Zero Delay
Waveform Control Knobs for
channel, zoom, math and
memory traces
Dedicated buttons to quickly access
popular debug tools
Easy connectivity with two
convenient USB 2.0 ports on the
front, four USB 3.1 ports on the side
Mixed Signal Capability - Debug
complex embedded designs with
integrated 16 channel mixed signal
capability
Rotating and Tilting Feet provide
4 different viewing positions
Auxiliary Output and Reference
Clock Input/Output connectors for
connecting to other equipment
USBTMC (Test and Measurement
Class) port simplifies programming
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1110
Digital Power Management,
Power Integrity
12-bit accuracy and precision and
1 GHz of bandwidth is perfect for
transient rail response, rail voltage
power integrity, crosstalk and
harmonics evaluation. Specialized
probes, analysis software, and
serial decoders make fast work of
complex embedded system power
management and integrity validation.
Deeply Embedded and
Mechatronic Systems
Today’s consumer appliances
and industrial systems combine
complex embedded controls, power
electronics, and sensors to achieve
the highest efficiency and provide
important control and other benefits.
Time-to-market, cost and quality
pressures place exceptional demands
on new product test, debug and
troubleshooting.
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POWERFUL MIXED SIGNAL CAPABILITIES
Integrated 16-Channel Mixed
Signal Capability
With embedded systems growing
more complex, powerful mixed signal
debug capabilities are an essential
part of modern oscilloscopes. The
16integrated digital channels and set
of tools designed to view, measure
and analyze 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 an embedded
system. Event triggering can be
configured to arm on an analog signal
and trigger on a digital pattern.
Advanced Digital Debug Tools
Using the powerful parallel pattern
search capability of WaveScan,
patterns across many digital lines can
be isolated and analyzed. Identified
patterns are presented in a table with
timestamp information and enables
quick searching for each pattern
occurrence.
Use a variety of the many timing
parameters to measure and analyze
the characteristics of digital busses.
Powerful tools like tracks, trends,
statistics and histicons provide
additional insight and help find
anomalies.
Quickly see the state of all the digital
lines at the same time using convenient
activity indicators.
The HDO4000A High Definition Oscilloscopes offer powerful mixed signal solutions that combine high
definition analog channels with the flexibility of digital inputs. The HDO4000A-MS options provide an
integrated 16 digital channels and a 1.25 GS/s sampling rate to create an all-in-one debug machine.
13
STANDARD TOOLS FOR ADVANCED ANALYSIS
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 find 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
Advanced Math and Measure
With many math functions and measurement
parameters available, the HDO4000A can measure and
analyze every aspect of analog and digital waveforms.
By utilizing HD4096 technology, the HDO4000A
measures 16 times more precisely than traditional 8-bit
architectures. Additionally, the HDO4000A provides
statistics, histicons and trends to show how waveforms
change over time.
WaveScan Advanced Search
WaveScan provides powerful isolation capabilities
that hardware triggers can’t provide. WaveScan allows
searching analog, digital or parallel bus signal in a single
acquisition using more than 20 different criteria. Or, set
up a scan condition and scan for an event over hours or
even days.
13
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14
T D
The HDO4000A features the widest
range and most complete serial
data debug toolsets.
Triggering
Decoding
Trigger
Powerful, flexible triggers designed
by people who know the standards,
with the unique capabilities you want
to isolate unusual events. Conditional
data triggering permits maximum
flexibility and highly adaptable error
frame triggering is available to isolate
error conditions. Efficiently acquire
bursted data using Sequence Mode to
maximize the oscilloscope's memory
usage. Sequence Mode enables the
oscilloscope to ignore idle time and
acquire only data of interest.
Decode
Decoded protocol information is color-
coded to specific portions of the serial
data waveform and transparently
overlaid for an intuitive, easy-to-
understand visual record. All decoded
protocols are displayed in a single
time-interleaved table. Touch a row in
the interactive table to quickly zoom
to a packet of interest and select a
column header to create filter criteria,
as is commonly done in spreadsheets.
Easily search through long records for
specific protocol events using the built-
in search feature.
EXCEPTIONAL SERIAL DATA TOOLS
A
B
I2CSPI UART RS-232 FlexRay LIN CAN
CAN FD
USB2
A
B
I2CSPI
UART
RS-232 FlexRay LIN CAN CAN FD USB2
A
B
I2CSPI UART RS-232 FlexRay LIN CAN CAN FD USB2
A
B
I2CSPI UART RS-232 FlexRay LIN CAN CAN FD
USB2
A
B
I2CSPI UART RS-232 FlexRay LIN CAN CAN FD USB2
A
B
I2C
SPI UART RS-232 FlexRay LIN CAN CAN FD USB2
FlexRay
A
B
I2CSPI UART RS-232 FlexRay
LIN
CAN CAN FD USB2
A
B
I2CSPI UART RS-232 FlexRay LIN
CAN
CAN FD USB2
Embedded
ComputingAutomotive + IndustrialAvionics
Computing
+ Peripherals
MIPIOther
HDO4000A
Serial Data
Protocol
Support
Decode
Trigger
I2C• •
SPI • •
UART-RS232 • •
USB2-HSIC
CAN • •
CAN FD • •
FlexRay • •
LIN • •
SENT
ARINC429
MIL-STD-1553 • •
SPACEWIRE
Ethernet
(10/100Base-T)
MDIO
USB 1.1/2.0 • •
8b/10b • •
D-PHY/CSI-2/DSI
DigRF3G
DigRFv4
SPMI
Audio (I²S, LJ, RJ, TDM) • •
Manchester
NRZ • •
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15
EXCEPTIONAL SERIAL DATA TOOLS
LabNotebook is a standard feature
of HDO4000A and is the ideal
documentation tool. LabNotebook
automatically saves all displayed
waveforms, oscilloscope setup file, and
a screen image with a single button
press, eliminating the need to navigate
multiple menus to save all these files
independently. Report files can be
annotated and shared with colleagues
to fully document all results. Easily
recreate experiments and compare tests
results amongst colleagues across the
world by recalling LabNotebook files
back onto the oscilloscope or view on a
PC using WaveStudio.
LabNotebook Documentation Tool
DOCUMENTATION AND SEQUENCE MODE
Advanced Waveform Capture
with Sequence Mode
Use Sequence mode to store up to
10,000 triggered events as segments.
This is ideal when capturing fast pulses
in quick succession or when capturing
events separated by long time periods.
Each segment has a timestamp and
dead-time between triggers is less than
1 μs. Isolate rate events over time by
combining with advanced triggers.
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16
SPECTRUM ANALYZER OPTION
Spectrum analyzer style controls simplify waveform analysis in the frequency domain.
Key Features
Spectrum analyzer style controls for
the oscilloscope
Dual Spectrum Capability
Select from six vertical scales (in dB,
V, or A)
Automatic frequency peak
identifications
Display up to 20 markers, with
interactive table readout of
frequencies and levels
Easily make measurements with
reference and delta markers
Automatically identify and
mark fundamental frequency
and harmonics
Spectrogram shows how spectra
changes over time in 2D or
3D views
Simplify Analysis of FFT Power Spectrum
Get faster and better insight to the frequency content of any signal with use
of the Spectrum Analyzer mode on the HDO4000A. This mode provides a
spectrum analyzer style user interface with controls for start/stop frequency
or center frequency and span. The resolution bandwidth is automatically set
for best analysis or can be manually selected. Peak search automatically
labels spectral components and presents frequency and level in an interactive
table. Utilize up to 20 markers to automatically identify harmonics and quickly
analyze frequency content by making measurements between reference
and delta markers. Spectrograms display a 2D or 3D history of the frequency
content to provided insight into how the spectrum changes over time.
Use two independent input settings and frequency ranges for advanced spectrum analysis.
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POWER ANALYSIS OPTION
Power Analyzer Automates Switching Device Loss Measurements
Quickly measure and analyze the operating characteristics of power conversion
devices and circuits with the Power Analyzer option. Critical power switching
device measurements, control loop modulation analysis, and line power
harmonic testing are all simplified with a dedicated user interface and automatic
measurements. Areas of turn-on, turn-off, and conduction loss are all identified
with color-coded waveform overlays for faster analysis.
Power Analyzer provides quick and easy setup of voltage and current inputs and
makes measurements as simple as the push of a button. Tools are provided to
help reduce sources of measurement errors and the measurement parameters
provide details of single cycle or average device power losses.
Beyond the advanced power loss measurement capabilities, the Power Analyzer
modulation analysis capabilities provide insight to understand control loop
response to critical events such as a power supply’s soft start performance or
step response to line and load changes. The Line Power Analysis tool allows
simple and quick pre-compliance testing to EN 61000-3-2.
Key Features
Automated measurement zone
identification with color-coded
overlays
Control loop and time domain
response analysis
Line power and harmonics tests to
IEC 61000-3-2
Total harmonic distortion table shows
frequency contribution
B-H Curve shows magnetic device
saturation
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PROBES
ZS Series High Impedance
Active Probes
ZS1000, ZS1000-QUADPAK
ZS1500, ZS1500-QUADPAK
High input impedance (1 MΩ), low 0.9 pF input capacitance
and an extensive set of probe tips and ground accessories
make these low-cost single-ended probes ideal for a wide
range of applications. The ZS Series is available up to
4GHz bandwidth.
Differential Probes
(200 MHz – 1.5 GHz)
ZD1500, ZD1000,
ZD500, ZD200
AP033
High bandwidth, excellent common-mode rejection ratio
(CMRR) and low noise make these active differential probes
ideal for applications such as automotive electronics and
data communications. AP033 provides 10x gain for high-
sensitivity measurement of series/shunt resistor voltages.
Active Voltage/Power
Rail Probe
RP4030
Specifically designed to probe a low impedance power/
voltage rail. The RP4030 has 30V built-in offset adjust,
low attenuation (noise), and high DC input impedance with
4GHz of bandwidth and a wide assortment of tips and
leads, including solder-in and U.FL receptacle connections.
High Voltage
Fiber Optically-isolated Probe
HVFO103
The HVFO103 is a compact, simple, affordable probe for
measurement of small signals (gate-drives, sensors, etc.)
floating on an HV bus in power electronics designs, or for
EMC, EFT, ESD, and RF immunity testing sensor monitoring.
Suitable for up to 35kV common-mode. 140 dB CMRR.
HVD Series High Voltage
Differential Probes
HVD3102, HVD3106 (1 kV)
HVD3206 (2 kV)
HVD3605 (6 kV)
Available with 1, 2 or 6kV common-mode ratings. Excellent
CMRR (65 dB @ 1 MHz) at high frequencies is combined
with low inherent noise, wide differential voltage range, high
offset voltage capabilities, and 1% gain accuracy. The ideal
probe for power conversion system test.
High Voltage
Passive Probes
HVP120,
PPE4KV, PPE5KV, PPE6KV
The HVP and PPE Series includes four fixed-attenuation
probes covering a range from 1 kV to 6 kV. These probes
are ideal for lightning/surge or EFT testing, or for probing
in-circuit beyond the range of a LV-rate passive probe.
Current Probes
CP030, CP030-3M, CP030A
CP031, CP031A
CP150, CP150-6M
CP500, DCS015
Available in bandwidths up to 100 MHz with peak currents
of 700 A and sensitivities to 1 mA/div. Extra-long cables
(3 or 6 meters) available on some models. Ideal for
component or power conversion system input/output
measurements. DCS015 deskew calibration source also
available.
Probe and Current Sensor
Adapters
TPA10, TPA10-QUADPAK
CA10, CA10-QUADPAK
TPA10 adapts supported Tektronix TekProbe-compatible
probes to Teledyne LeCroy ProBus interface. CA10 is a
programmable adapter for third-party current sensors that
have voltage or current outputs proportional to measured
current. QUADPAKs of four pieces each are available.
Teledyne LeCroy offers an extensive range of probes to meet virtually every probing need.
19
SPECIFICATIONS
Vertical - Analog Channels
HDO4024A
HDO4024A-MS
HDO4034A
HDO4034A-MS
HDO4054A
HDO4054A-MS
HDO4104A
HDO4104A-MS
Bandwidth @ 50 Ω (-3 dB) 200 MHz 350 MHz 500 MHz 1 GHz
Bandwidth @ 1 MΩ (-3 dB) 200 MHz (typical) 350 MHz (typical) 500 MHz (typical) 500 MHz (typical)
Rise Time (10–90%, 50 Ω) 1.75 ns 1 ns 700 ps 450 ps
Input Channels 4
Vertical Resolution 12-bits; up to 15-bits with enhanced resolution (ERES)
Effective Number of Bits (ENOB) 8.8 bits 8.7 bits 8.6 bits 8.4 bits
Vertical Noise Floor
1 mV/div 70 μVrms 85 μVrms 100 μVrms 145 μVrms
2 mV/div 70 μVrms 85 μVrms 100 μVrms 145 μVrms
5 mV/div 75 μVrms 90 μVrms 105 μVrms 150 μVrms
10 mV/div 80 μVrms 95 μVrms 110 μVrms 155 μVrms
20 mV/div 100 μVrms 110 μVrms 130 μVrms 185 μVrms
50 mV/div 195 μVrms 210 μVrms 265 μVrms 275 μVrms
100 mVdiv 340 μVrms 360 μVrms 450 μVrms 500 μVrms
200 mV/div 1.00 mVrms 1.10 mVrms 1.25 mVrms 1.75 mVrms
500 mV/div 1.90 mVrms 2.10 mVrms 2.60 mVrms 2.75 mVrms
1 V/div 3.40 mVrms 3.70 mVrms 4.50 mVrms 4.90 mVrms
Sensitivity 50 Ω: 1 mV/div–1 V/div, fully variable; 1 MΩ: 1 mV/div–10 V/div, fully variable
DC Vertical Gain Accuracy
(Gain Component of DC Accuracy)
±(0.5%) F.S, offset at 0 V
Channel-Channel Isolation DC-200 MHz:
60 dB (>1000:1),
(For any two input
channels, same V/div
settings, typical)
DC-200 MHz:
60 dB (>1000:1),
200 MHz up to rated BW:
50 dB (>300:1),
(For any two input
channels, same V/div
settings, typical)
DC-200 MHz:
60 dB (>1000:1),
200 MHz up to
rated BW: 50 dB (>300:1),
(For any two input
channels, same V/div
settings, typical)
DC-200 MHz:
60 dB (>1000:1),
200-500 MHz: 50 dB
(>300:1), 500 MHz up to
rated bandwidth:
40 dB (>100:1)
(For any two input
channels, same V/div
settings, typical)
Offset Range 50 Ω: 1 mV - 4.95 mV: ±1.6 V, 5 mV - 9.9 mV: ±4 V, 10 mV - 19.8 mV: ±8 V, 20 mV - 1 V: ±10 V
1 MΩ: 1 mV - 4.95 mV: ±1.6 V, 5 mV - 9.9 mV: ±4 V, 10 mV - 19.8 mV: ±8 V, 20 mV - 100 mV: ±16 V,
  102 mV - 198 mV: ±80V, 200 mV - 1 V: ±160 V, 1.02 V -10 V: ±400 V
DC Vertical Offset Accuracy ±(1.0% of offset setting + 0.5%FS + 0.02% of max offset + 1mV)
Maximum Input Voltage 50 Ω: 5 Vrms, 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,
Bandwidth Limiters 20 MHz, 200 MHz
Horizontal - Analog Channels
Acquisition Modes Real-time, Roll, Random Interleaved Sampling (RIS), Sequence
Time/DIvision Range 200 ps/div - 1.25 ks/div with standard memory (up to 2.5 ks/div with -L memory);
RIS available at ≤ 10 ns/div; Roll Mode available at ≥ 100 ms/div and ≤ 5 MS/s
Clock Accuracy ±2.5 ppm + 1.0ppm/year from calibration
Sample Clock Jitter Up to 10 ms acquired time range: 280 fsrms (internal timebase reference)
Delta Time Measurement Accuracy
+(Sample Clock Jitter)
2
(RMS, seconds, TIE)
Noise
SlewRate
+(Sample Clock Jitter)
2
(RMS) + (clock accuracy * reading) (seconds)
2
2
*
Noise
SlewRate
2
Jitter Measurement Floor
+(Sample Clock Jitter)
2
(RMS, seconds, TIE)
Noise
SlewRate
+(Sample Clock Jitter)
2
(RMS) + (clock accuracy * reading) (seconds)
2
2
*
Noise
SlewRate
2
Jitter Between Channels Analog Channels: 2 psrms (TIE, typical); Digital Channels: 350 ps (maximum) between any two channels
Analog-Digital Channels: <5ns (maximum) between any analog and any digital channel
Channel-Channel Deskew Range ±9 x time/div. setting, 100 ms max., each channel
External Timebase Reference (Input) 10 MHz ±25 ppm at 0 to 10 dBm into 50 Ω
External Timebase Reference (Output) 10 MHz, 2.0 dBm ±1.5 dBm, sinewave synchronized to reference being used (internal or external reference)
Acquisition - Analog Channels
Sample Rate (Single-shot) 10 GS/s on all 4 Channels with Enhanced Sample Rate
Sample Rate (Repetitive) 125 GS/s, user selectable for repetitive signals (20 ps/div to 10 ns/div)
Memory Length
(# of Segments in Sequence Mode)
Standard: 12.5 Mpts/ch for all channels, 25 Mpts (interleaved) (10,000 segments)
Option - L: 25 Mpts/ch for all channels, 50 Mpts (interleaved) (10,000 segments)
Intersegment Time 1 μS
Averaging Summed averaging to 1 million sweeps; continuous averaging to 1 million sweeps
Enhanced Resolution (ERES) From 12.5- to 15-bits vertical resolution
Envelope (Extrema) Envelope, floor, or roof for up to 1 million sweeps
Interpolation Linear or Sin x/x (2 pt and 4 pt); 5 or 10 GS/s Enhanced Sample Rate defaults to 2 pt or 4 pt Sin x/x respectively
20
SPECIFICATIONS
HDO4024A
HDO4024A-MS
HDO4034A
HDO4034A-MS
HDO4054A
HDO4054A-MS
HDO4104A
HDO4104A-MS
Vertical, Horizontal, Acquisition - Digital Channels (with HDO4000A-MS only)
Input Channels 16 Digital Channels
Threshold Groupings Pod 2: D15 - D8, Pod 1: D7 - D0
Threshold Selections TTL, ECL, CMOS (2.5 V, 3.3 V, 5 V), PECL, LVDS or User Defined
Maximum Input Voltage ±30V Peak
Threshold Accuracy ±(3% of threshold setting + 100mV)
Input Dynamic Range ± 20V
Minimum Input Voltage Swing 400mV
Input Impedance (Flying Leads) 100 kΩ || 5 pF
Maximum Input Frequency 250 MHz
Sample Rate 1.25 GS/s
Record Length Standard: 12.5 MS (25 MS interleaved) - 16 Channels
Optional -L: 25 MS (50 MS interleaved) - 16 Channels
Minimum Detectable Pulse Width 2 ns
Channel-to-Channel Skew 350 ps
User Defined Threshold Range ±10 V in 20 mV steps
User Defined Hysteresis Range 100 mV to 1.4 V in 100 mV steps
Triggering System
Modes Normal, Auto, Single, and Stop
Sources Any input channel, External, Ext/10, or line; slope and level unique to each source (except for line trigger)
Coupling DC, AC, HFRej, LFRej
Pre-trigger Delay 0-100% of memory size (adjustable in 1% increments of 100 ns)
Post-trigger Delay 0-10,000 Divisions in real time mode, limited at slower time/div settings or in roll mode
Hold-off From 2 ns up to 20 s or from 1 to 99,999,999 events
Trigger and Interpolator Jitter ≤ 4 ps rms (typical) ≤ 4 ps rms (typical) ≤ 3.5 ps rms (typical) ≤ 3.5 ps rms (typical)
Internal Trigger Level Range ±4.1 div from center (typical)
External Trigger Input Range Ext: ±400 mV, Ext/10: ±4 V
Maximum Trigger Rate 1,000,000 waveforms/sec (in Sequence Mode, up to 4 channels)
Trigger Sensitivity with Edge Trigger
(Ch 1–4)
0.9 division: 10 MHz
1.0 divisions: 200 MHz
0.9 division: 10 MHz
1.0 divisions: 200 MHz
2.0 divisions: 350 MHz
0.9 division: 10 MHz
1.0 divisions: 200 MHz
1.5 divisions: 250 MHz
2.0 divisions: 500 MHz
0.9 division: 10 MHz
1.0 divisions: 200 MHz
1.5 divisions: 500 MHz
2.0 divisions: 1 GHz
Trigger Sensitivity with Edge Trigger
(External Input)
0.9 division: 10 MHz
1.0 divisions: 200 MHz
2
0.9 division: 10 MHz
1.0 divisions: 200 MHz
2.0 divisions: 350 MHz
0.9 division: 10 MHz
1.0 divisions: 200 MHz
1.5 divisions: 250 MHz
2.0 divisions: 500 MHz
0.9 division: 10 MHz
1.0 divisions: 200 MHz
1.5 divisions: 500 MHz
2.0 divisions: 1 GHz
Max. Trigger Frequency, Smart Trigger 200 MHz 350 MHz 500 MHz 1 GHz
Trigger Types
Edge Triggers when signal meets slope (positive, negative, or either) and level condition
Width Triggers on positive or negative glitches with selectable widths. Minimum width 1.5ns, Maximum width: 20 s
Glitch Triggers on positive or negative glitches with selectable widths. Minimum width 1.5ns, Maximum width: 20 s
Window Triggers when signal exits a window defined by adjustable thresholds
Pattern Logic combination (AND, NAND, OR, NOR) of up to 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.
TV-Composite Video 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)
Runt Trigger on positive or negative runts defined by two voltage limits and two time limits. Select between 1 ns and 20 ns
Slew Rate Trigger on edge rates. Select limits for dV, dt, and slope. Select edge limits between 1 ns and 20 ns
Interval Triggers on intervals selectable between 1 ns and 20 s
Dropout Triggers if signal drops out for longer than selected time between 1 ns and 20 s
Triggers with Exclusion Technology Glitch, Width, Interval, Runt, Slew Rate - Trigger on intermittent faults by specifying the expected behavior and trig-
gering when that condition is not met
Qualified
(Timeout or State/Edge Qualified)
Triggers on any input source only if a defined state or edge occurred on another input source. Delay between
sources is selectable by time or events. (Note: event B pattern trigger cannot include analog channels).
Low Speed Serial Protocol Trigger
(Optional)
I2C, SPI (SPI, SSPI, SIOP), UART-RS232, CAN1.1, CAN2.0, CAN FD, LIN, FlexRay, MIL-STD-1553, AudioBus (I2S, LJ,
RJ, TDM), USB1.x/2.0
21
HDO4024A
HDO4024A-MS
HDO4034A
HDO4034A-MS
HDO4054A
HDO4054A-MS
HDO4104A
HDO4104A-MS
Measurement Tools
Measurement Functionality Display up to 8 measurement parameters together with statistics, including mean, minimum, maximum, standard
deviation, and total number. Each occurrence of each parameter is measured and added to the statistics table. .
Histicons provide a fast, dynamic view of parameters and wave shape characteristics.
Parameter gates define the location for measurement on the source waveform.
Measurement Parameters -
Horizontal + Jitter
Delay (from trigger, 50%), Duty Cycle (50%, @level), Edges (@level),Fall Time (90-10, 20-80), Frequency (50%,
@level), Period (50%, @level), Δ Period (@level), Phase (@level), Rise Time (10-90, 20-80), Skew, Time (@level),
Δ Time (@level), Width+, Width-
Measurement Parameters - Vertical Amplitude, Base, Maximum, Mean, Minimum, Peak-to-Peak, RMS, Std. Deviation, Top.
Measurement Parameters - Pulse Area, Base, Fall Time (90-10, 80-20), Overshoot (positive, negative), Rise Time (10-90, 80-20), Top, Width+, Width-
Math Tools
Math Functionality Display up to 2 math functions traces (F1-F2). 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.
Math Operators - Basic Math Average (summed), Average (continuous), Difference (–), Envelope, Floor, Invert (negate), Product (x), Ratio (/),
Reciprocal, Rescale (with units), Roof, Sum (+).
Math Operators - Filters Enhanced resolution (to 15 bits vertical)
Math Operators - Frequency Analysis FFT (power spectrum, magnitude), up to full record length. Select from Rectangular, VonHann, Hamming, FlatTop
and Blackman Harris windows.
Math Operators - Functions Absolute value, Derivative, Integral, Invert (negate), Reciprocal, Rescale (with units), Square, Square root, Zoom
(identity).
Measurement and Math Integration
Trend (datalog) of up to 1 million measurement parameters.
Pass/Fail Testing
Pass/Fail Testing Mask Test (pre-defined or user-defined mask, waveform All In, All Out, Any In, or Any Out conditions) with following
THEN Save (waveforms), Stop, Alarm, (send) Pulse, Hardcopy (send email, save screen image, save to clipboard,
send to printer), or (save) LabNotebook.
Display System
Display Size Color 12.1” widescreen flat panel TFT-Active Matrix with high resolution touch screen
Display Resolution WXGA; 1280 x 800 pixels
Number of Traces Display a maximum of 8 traces. Simultaneously display channel, zoom, memory, math, and X-Y traces
Grid Styles Auto, Single, Dual, Quad, Octal, Tandem, Quattro, X-Y, Single+X-Y, Dual+X-Y
Waveform Representation Sample dots joined, or sample dots only
SPECIFICATIONS
22
HDO4024A
HDO4024A-MS
HDO4034A
HDO4034A-MS
HDO4054A
HDO4054A-MS
HDO4104A
HDO4104A-MS
Processor/CPU
Type Intel® i3-6100 Dual Core, 3.7 GHz (or better)
Processor Memory 8 GB standard standard
Operating System Microsoft Windows® 10
Oscilloscope Operating Software Teledyne LeCroy MAUI™ with OneTouch
Connectivity
Ethernet Port Supports 2 10/100/1000Base-T Ethernet interface (RJ45 port)
USB Host Ports 4 side USB 3.1 Gen1 ports and 2 front USB 2.0 ports support Windows compatible devices
USB Device Port 1 USBTMC port
GPIB Port (Optional) Supports IEEE – 488.2 (External)
External Monitor Port 1 HDMI 1.4 and 1 DisplayPort 1.2 Port. Includes support for extended desktop operation with UHD 3840 x 2160
pixel resolution on second monitor. Supports touch screen integration of external monitor (Note: external display
cannot use a Fujitsu touch-screen driver).
Remote Control Via Windows Automation, or via Teledyne LeCroy Remote Command Set
Probes
Standard Probes Qty. (4) ÷10 Passive Probes
Probing System ProBus. Automatically detects and supports a variety of compatible probes
Power Requirements
Voltage 100–240 VAC ±10% at 45-66 Hz; 110-120 VAC ±10% at 380-420 Hz; Automatic AC Voltage Selection; Installation
Category 300 V CAT II
Power Consumption (Nominal) 200 W / 200 VA
Max Power Consumption 320 W / 320 VA (with all PC peripherals and active probes connected to 4 channels)
Environmental
Temperature Operating: 5 °C to 40 °C; Non-Operating: -20 °C to 60 °C
Humidity Operating: 5% to 90% relative humidity (non-condensing) up to +31 °C, Upper limit derates to 50% relative humidity
(non-condensing) at +40 °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 +30 °C; Non-Operating: Up to 12,192 meters (40,000 ft)
Random Vibration Operating : 0.31 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes;
Non-Operating: 2.4 grms 5 Hz to 500 Hz, 15 minutes in each of three orthogonal axes
Functional Shock
30 g
peak
, half sine, 11 ms pulse, 3 shocks (positive and negative) in each of three orthogonal axes, 18 shocks total
Physical
Dimensions (HWD) 11.48”H x 15.72”W x 5.17”D (291.7 mm x 399.4 mm x 131.31 mm)
Weight 12.9 lbs. (5.86 kg.)
Certifications
CE Certification
UL and cUL Listing
CE Compliant, UL and cUL listed, confirms to:
UL 61010-1 (3rd Edition), UL 61010-2-030 (1st Edition)
CAN/CSA C22.2 No.61010-1-12
CE Compliant, UL and cUL listed, confirms to:
UL 61010-1 (3rd Edition), UL 61010-2-030 (1st Edition)
CAN/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
SPECIFICATIONS
23
Product Description Product Code
HDO4000A Oscilloscopes
200 MHz, 10 GS/s, 4 Ch, 12.5 Mpts/Ch 12-bit HD
Oscilloscope with 12.1" WXGA Touch Display
HDO4024A
350 MHz, 10 GS/s, 4 Ch, 12.5 Mpts/Ch 12-bit HD
Oscilloscope with 12.1" WXGA Touch Display
HDO4034A
500 MHz, 10 GS/s, 4 Ch, 12.5 Mpts/Ch 12-bit HD
Oscilloscope with 12.1" WXGA Touch Display
HDO4054A
1 GHz, 10 GS/s, 4 Ch, 12.5 Mpts/Ch 12-bit HD
Oscilloscope with 12.1" WXGA Touch Display
HDO4104A
HDO4000A-MS Mixed Signal Oscilloscopes
200 MHz, 10 GS/s, 4+16ch, 12.5 Mpts/Ch 12-bit HD
Mixed Signal Oscilloscope w/ 12.1” WXGA Color Display
HDO4024A-MS
350 MHz, 10 GS/s, 4+16ch, 12.5 Mpts/Ch 12-bit HD
Mixed Signal Oscilloscope w/ 12.1” WXGA Color Display
HDO4034A-MS
500 MHz, 10 GS/s, 4+16ch, 12.5 Mpts/Ch 12-bit HD
Mixed Signal Oscilloscope w/ 12.1” WXGA Color Display
HDO4054A-MS
1 GHz, 10 GS/s, 4+16ch, 12.5 Mpts/Ch 12-bit HD
Mixed Signal Oscilloscope w/ 12.1” WXGA Color Display
HDO4104A-MS
Included with Standard Configurations (HDO4000A and
HDO4000A-MS)
÷10 Passive Probe (Total of 1 Per Channel),
Getting Started Guide,
Anti-virus Software (Trial Version), Microsoft Windows Embedded Standard
7 P 64-Bit License, Commercial NIST Traceable Calibration with
Certificate, Power Cable for the Destination Country, Protective Front Cover,
3-year Warranty
Included with HDO4000A-MS
16 Channel Digital Leadset, Extra Large Gripper Probe Set (Qty. 22),
Ground Extenders (Qty. 20), Flexible Ground Leads (Qty. 5)
Memory Option
25 Mpts/ch (50 Mpts interleaved) memory HDO4KA-L
Hardware Options
Removable Solid State Drive Package (includes
removable solid state drive kit and two solid state drives)
HDO4KA-RSSD
Additional Removable Solid State Drive HDO4KA-RSSD-02
General Accessories
External GPIB Accessory USB2-GPIB
Soft Carrying Case HDO4K-SOFTCASE
Rack Mount Accessory HDO4K-RACK
Accessory Pouch HDO4K-POUCH
Local Language Overlays
German Front Panel Overlay HDO4K-FP-GERMAN
French Front Panel Overlay HDO4K-FP-FRENCH
Italian Front Panel Overlay HDO4K-FP-ITALIAN
Spanish Front Panel Overlay HDO4K-FP-SPANISH
Japanese Front Panel Overlay HDO4K-FP-JAPANESE
Korean Front Panel Overlay HDO4K-FP-KOREAN
Chinese (Tr) Front Panel Overlay HDO4K-FP-CHNES-TR
Chinese (Simp) Front Panel Overlay HDO4K-FP-CHNES-SI
Russian Front Panel Overlay HDO4K-FP-RUSSIAN
Product Description Product Code
Software Options
Electrical Telecom Mask Test Package HDO4K-ET-PMT
Spectrum Analysis Option HDO4K-SPECTRUM
Power Analysis Option HDO4K-PWR
Serial Data Options
ARINC 429 Symbolic Decode Option HDO4K-ARINC429bus DSymbolic
Audiobus Trigger and Decode Option for
I2S, LJ, RJ, and TDM
HDO4K-Audiobus TD
CAN, LIN and FlexRay Trigger and Decode Option HDO4K-AUTO
CAN FD Trigger and Decode Option
HDO4K-CAN FDbus TD
CAN Trigger and Decode Option
HDO4K-CANbus TD
D-PHY Decode Option
HDO4K
-DPHYbus D
DigRF 3G Decode Option HDO4K-DigRF3Gbus D
DigRF v4 Decode Option HDO4K-DigRFv4bus D
ENET Decode Option
HDO4K-ENETbus D
FlexRay Trigger and Decode
Option
HDO4K-FlexRaybus TD
I2C, SPI and UART Trigger and Decode Option HDO4K-EMB
I2C Bus Trigger and Decode Option
HDO4K-
I2Cbus TD
LIN Trigger and Decode Option HDO4K-LINbus TD
MDIO Decode HDO4K-MDIObus D
Manchester Decode Option HDO4K-Manchesterbus D
MIL-STD-1553 Trigger and Decode Option HDO4K-1553 TD
NRZ Decode Option HDO4K-NRZbus D
SENT Decode Option
HDO4K-SENTbus D
SPI Bus Trigger and Decode Option HDO4K-SPIbus TD
SPMI Decode HDO4k-SPMIbus D
SpaceWire Decode Option HDO4K-SpaceWirebus D
UART and RS-232 Trigger and Decode Option HDO4K-UART-RS232bus TD
USB 2.0 Trigger and Decode Option
HDO4K-USB2bus TD
USB2-HSIC Decode Option HDO4K-USB2-HSICbus D
ORDERING INFORMATION
‘ TELEDVNE LEDRDV ~ Everywhereyoulook‘
Product Description Product Code
Probes and Amplifiers
250 MHz Passive Probe for HDO4000A, 10:1, 10
M
Ω
PP017
500 MHz Passive Probe 10:1, 10 M
Ω
PP018
500 MHz Passive Probe, 5mm, 10:1, 10 M
Ω
PP026
Power/Voltage Rail Probe. 4 GHz bandwidth, 1.2x
attenuation, ±30V offset, ±800mV
RP4030
Browser for use with RP4030 RP4000-BROWSER
1,500 V, 120 MHz High-Voltage Differential Probe HVD3106A
1kV, 80 MHz High Voltage Differential Probe with
6m cable
HVD3106A-6M
1kV, 120 MHz High Voltage Differential Probe with-
out tip Accessories
HVD3106A-NOACC
1,500 V, 25 MHz High-Voltage Differential Probe HVD3102A
1kV, 25 MHz High Voltage Differential Probe without
tip Accessories
HVD3102A-NOACC
2kV, 120 MHz High Voltage Differential Probe HVD3206A
2kV, 80 MHz High Voltage Differential Probe with
6m cable
HVD3206A-6M
6kV, 100 MHz High Voltage Differential Probe HVD3605A
High Voltage Fiber Optic Probe, 60 MHz (requires
accessory tip)
HVFO103
±1V (1x) Tip Accessory for HVFO103
HVFO100-1X-TIP-U
±5V (5x) Tip Accessory for HVFO103
HVFO100-5X-TIP-U
±10V (10x) Tip Accessory for HVFO103
HVFO100-10X-TIP-U
±20V (20x) Tip Accessory for HVFO103
HVFO100-20X-TIP-U
±40V (40x) Tip Accessory for HVFO103
HVFO100-40X-TIP-U
30 A; 100 MHz Current Probe – AC/DC; 30
A
rms
; 50 Apeak Pulse CP031
30 A; 100 MHz High Sensitivity Current Probe – AC/DC; 30
A
rms
;
50 A
peak
Pulse
CP031A
30 A; 50 MHz Current Probe – AC/DC;
30
A
rms
; 50 Apeak Pulse
CP030
30 A, 10 MHz Current Probe - AC/DC, 30 A rms, 50 A Peak
Pulse, 3 meter cable
CP030-3M
30 A; 50 MHz High Sensitivity Current Probe – AC/DC;
30
A
rms
;
50 A
peak
Pulse
CP030A
150 A; 10 MHz Current Probe – AC/DC; 150 A
rms
; 500
Apeak
Pulse CP150
150 A, 5 MHz Current Probe - AC/DC, 150 A rms, 500 A Peak
Pulse, 6 meter cable
CP150-6M
500 A; 2 MHz Current Probe – AC/DC; 500 A
rms
; 700
Apeak
Pulse CP500
Deskew Calibration Source for CP030, CP030A, CP031, CP031A,
CP150, CP500
DCS025
Product Description Product Code
Probes and Amplifiers (cont’d)
500 MHz Differential Probe AP033
200 MHz, 3.5 pF, 1 M
Ω
Active Differential Probe, ±20 V, 60V
common-mode
ZD200
1 GHz, 1.0 pF, 1 M
Ω
Active Differential Probe, ±8 V,
10V common-mode
ZD1000
1.5 GHz, 1.0 pF, 1 M
Ω
Active Differential Probe, ±8 V,
10V common-mode
ZD1500
500 MHz, 1.0 pF Active Differential Probe, ±8 V ZD500
1 GHz, 0.9 pF, 1 MΩ High Impedance Active Probe ZS1000
Set of 4 ZS1000 ZS1000-QUADPAK
1.5 GHz, 0.9 pF, 1 MΩ High Impedance Active Probe ZS1500
Set of 4 ZS1500 ZS1500-QUADPAK
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
TekProbe to ProBus Probe Adapter TPA10
Set of 4 TPA10 TekProbe to ProBus Probe Adapters. TPA10-QUADPAK
Programmable Current Sensor to ProBus Adapter
for use with third party current sensors
CA10
ORDERING 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
© 2019 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.
hdo4ka-ds-13mar19
Local sales offices are located throughout the world.
Visit our website to find the most convenient location.
1-800-5-LeCroy
teledynelecroy.com

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