Keysight MSOX6004A Infiniivision 6000 x-series oscilloscope Datasheet

Keysight Technologies
InfiniiVision 6000 X-Series Oscilloscopes
Data Sheet
02 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Table of Contents
New Standard for Price Performance: Bandwidth, Visualization, and Integration������������������������������������03
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Need more memory, bandwidth, analysis capability, or bits?
Consider the Infiniium S-Series
–– 500 MHz, 1 GHz, 2 GHz, 2.5 GHz, 4 GHz, 6 GHz, 8 GHz
–– 20 GSa/s
–– 100 Mpts standard, up to 800 Mpts optional (half channel)
–– 4 channels + 16 digital channels (MSO or upgrade)
–– 10 bits of vertical resolution
–– Industry’s largest 15-inch touch display
–– Widest range of applications including serial compliance, jitter analysis and more
See www.keysight.com/find/S-Series for details.
03 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
In the past, if you wanted an oscilloscope with exceptional
performance, you could expect to pay a premium. Not anymore.
The InfiniiVision 6000 X-Series oscilloscopes combine price and
performance to set a new standard in the portable oscilloscope
world. Imagine a 6 GHz bandwidth oscilloscope that sees and
triggers on everything, helps you visualize complex waveforms
and grows with your projects.
The InfiniiVision 6000 X-Series oscilloscopes are designed for the
most demanding engineers who want bandwidth, visualization
power and the flexibility that comes with integrated capabilities
— but with portability, a familiar embedded OS user interface, and
an affordable price.
New integration standard: Make your job easier
The 6000 X-Series has 7-in-1 integration, combining digital
channels, serial protocol analysis, a built-in dual-channel
waveform generator, frequency response analysis, built-in digital
multimeter, and built-in 10-digit counter with totalizer. It also
integrates multi-language voice control for the first time in an
oscilloscope. It weighs only 6.8 kg, measures only 15.4 cm deep,
and consumes only 200 W, making the 6000 X-Series the world’s
most environmentally-friendly multi-GHz portable oscilloscope.
The InfiniiVision 6000 X-Series sets the new standard.
Key features of the 6000 X-Series oscilloscopes
New bandwidth standard: Capture higherfrequency waveforms
New bandwidth standard:
An oscilloscope’s bandwidth determines the maximum frequency
content it can acquire and visualize. In today’s budget-challenged
environment, engineers frequently are forced to make
compromises between more bandwidth and limited budget. The
6000 X-Series delivers the answer with an affordable 6-GHz
bandwidth and an incredibly low noise floor of 210 µVrms at
1 mV/div to help you make the most accurate measurements.
New visualization standard:
New visualization standard: Isolate waveforms of
interest
The new InfiniiVision 6000 X-Series’ 450,000 waveforms-persecond update rate coupled with the exclusive hardware-based
zone touch trigger provide unprecedented visualization power
to help you isolate your waveforms of interest. Add a whole new
depth of “visualization” to your designs with features like the
industry’s first 12-inch multi-touch capacitive touch screen with
gesture support, the first embedded-OS-oscilloscope optional
jitter/real-time eye analysis, and standard histogram and color
grade.
–– Portable, 6-GHz, 20-GSa/s
–– 210-µVrms noise floor at 1 mV/div (6 GHz)
–– 115-µVrms noise floor at 1 mV/div (1 GHz)
–– > 450,000 wfms/sec update rate
–– Hardware zone touch trigger
–– 12.1-inch capacitive multi-touch screen
–– Histogram, color grade, jitter analysis (option), real-time eye
diagram analysis (option), and more
New integration standard:
–– 7 instruments in 1 (now with 10-digit counter)
–– Standard multi-language voice control
–– Bandwidth and options are upgradable
04 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Overview of the Keysight InfiniiVision X-Series oscilloscopes
InfiniiVision
6000 X-Series
Analog channels
2 or 4
Digital channels (MSO) 16
4000 X-Series
2 or 4
16
3000T X-Series
2 or 4
16
2000 X-Series
2 or 4
8
Bandwidth
(upgradable)
Max sampling rate
Max memory depth
1, 2.5, 4, 6 GHz
200, 350, 500 MHz, 1,
1.5 GHz
5 GSa/s
4 Mpts
100, 200, 350, 500
MHz, 1 GHz
5 GSa/s
4 Mpts
70, 100, 200 MHz
Max waveform update
rate
Display
> 450,000
waveforms/sec
12.1 inches, capacitive,
multi-touch, gesture
enabled
Standard
Standard
Dual-channel AWG
(option)
> 1,000,000
waveforms/sec
12.1 inches, capacitive
Standard
10-digit frequency,
period, or totalizer
counter
Zone trigger
Voice control
20-MHz function/
arbitrary waveform
generator
Integrated DVM
Integrated hardware
counter (standard)
20 GSa/s
4 Mpts
2 GSa/s
Up to 1 Mpts standard
> 1,000,000
waveforms/sec
8.5 inches, capacitive
2 GSa/s
100 kpts (standard)
1 Mpts (option)
> 50,000
waveforms/sec
8.5 inches
Standard
No
Dual-channel AWG
(option)
Standard
No
Single-channel AWG
(option)
No
No
Single-channel function
(option)
No
No
Single-channel function
(standard on G models)
Standard
8-digit frequency,
period, or totalizer
counter
Standard
5-digit frequency
counter
Free with registration
8-digit frequency
counter
Standard with lister
Standard
Standard
Option
Option
Option
I2C/SPI, UART, CAN/
CAN-FD, LIN, FlexRay,
SENT, I2S, MILSTD1553/ARINC429,
CXPI, Manchester/
NRZ, USB PD
I2C/SPI, UART, CAN/
LIN (will not operate
simultaneously with
digital channels)
No
Standard on DSO
models
Standard on DSO
models
I2C/SPI, UART, CAN/
LIN
Power analysis, HDTV
analysis, FRA, NFC
No
FRA
No
No
Standard
No
No
Standard
Gated FFT
No
No
Standard, display one
function
No
No
Standard enhanced
FFT
Gated FFT
No
No
Standard, display one
function
No
No
No
No
No
No
No
No
Standard USB 2.0,
LAN, video (GPIB
option), USB mouse
and keyboard support
Standard USB 2.0
(LAN/video/GPIB
option), USB mouse
and keyboard support
Standard USB 2.0
(LAN/video/GPIB
option), USB keyboard
support
Standard USB 2.0, USB
keyboard support
Search and navigate
Segment memory
Standard with lister
Standard
Standard
5-digit frequency or
period counter (8 digits
with external 10 MHz
clock reference)
Standard with lister
Standard
Mask/limit test
Option
Option
Serial protocol
analysis options
I2C/SPI, UART,
CAN/CAN-FD, LIN,
FlexRay, SENT,
I2S, MIL-STD1553/
ARINC429, USB 2.0,
CXPI, Manchester/NRZ,
USB PD
Power analysis, USB
2.0 signal quality test,
HDTV analysis, FRA
Advanced analysis
options
Color grade
Histogram
Spectrum analysis
Multi-domain analysis
Jitter analysis
Real-time eye diagram
Advanced math
Connectivity
I2C/SPI, UART,
CAN/CAN-FD, LIN,
FlexRay, SENT,
I2S, MIL-STD1553/
ARINC429, USB 2.0,
CXPI, Manchester/NRZ,
USB PD
Power analysis, USB
2.0 signal quality test,
HDTV analysis, FRA,
NFC
Standard
No
Standard
No
Standard enhanced FFT Standard enhanced FFT
Gated FFT
Option
Option
Standard, display
four functions
simultaneously
Standard USB 2.0,
LAN, video (GPIB
option), USB mouse
and keyboard support
1000 X-Series
2
External trigger can be
used as a 3rd digital
channel
50, 70, 100 MHz
> 50,000
waveforms/sec
7 inches
05 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Bandwidth
Superior signal integrity with total-cost- ofownership leadership 6 GHz, 20 GSa/s
When you choose your next oscilloscope, bandwidth is the most
important specification to consider, as it defines the maximum
frequency content your oscilloscope can acquire. Acquiring
signals with faster edge rates or faster fundamental frequencies
requires higher-bandwidth scopes to make the most accurate
measurements. However, the higher the bandwidth of your
oscilloscope, the higher the price is likely to be.
Sample rate is the second important specification, as it
determines the time span between each acquired sample point,
and it ultimately becomes the limiting factor of the oscilloscope’s
bandwidth. In a modern oscilloscope with Brickwall filter
response, the sample rate must be at least 2.5 times higher the
bandwidth. So a scope with 6-GHz bandwidth requires a sample
rate of at least 15 GSa/s to avoid aliasing.
Figure 2. An oscilloscope with 1.5-GHz bandwidth captures only the
fundamental frequency of a 2.5-Gbps PRBS signal.
With the InfiniiVision 6000 X-Series, you can get up to 6-GHz
bandwidth and a 20-GSa/s sampling rate so you can confidently
measure signals with rise times faster than 150 ps or signals with
higher than 2-Gbps NRZ (non-return to zero) data signal rates.
Explore Figures 1 through 4 to see the power extra bandwidth
delivers to your measurements.
Figure 3. An oscilloscope with 3-GHz bandwidth sees some of the 3rd
harmonic of a 2.5-Gbps PRBS signal.
Figure 1. Measuring the rise time of a 130-ps rise-time edge (10 to 90%).
The rise time measurement by
–– Channel 1 at 6-GHz bandwidth (yellow): 132 ps
–– Reference 1 (R1) at 3-GHz bandwidth limit: 196 ps
–– Reference 2 (R2) at 1.5-GHz bandwidth limit: 216 ps
Figure 4. An oscilloscope with 6-GHz bandwidth sees up to the 5th
harmonic of the 2.5-Gbps PRBS signal. You see the true signal integrity
of your waveform.
06 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Bandwidth (Continued)
6 GHz Noise floor: 210 µVrms at 1 mV/div
Accurate signal integrity measurements with an oscilloscope
start with a low noise floor. With an innovative all-new front-end
ASIC, the 6000 X-Series achieves a 210-μVrms noise floor at 1
mV/div for 6-GHz bandwidth or 115-μVrms noise floor at 1 mV/
div for 1-GHz bandwidth, helping you to make the most precise
measurements.
More bandwidth may not be the best solution when you are making
low-noise measurements, as the additional bandwidth captures
additional high-frequency noise along with high-frequency
signal content. To make the best measurements, you need the
appropriate bandwidth for your application. The 6000 X-Series
oscilloscopes have standard hardware bandwidth limit filters in
addition to software low-pass math function filters, so you can
set the best bandwidth for your application.
Figure 5. The new 6-GHz front-end design.
An added bonus: the new front-end technology allows you to
upgrade bandwidth from any bandwidth point with a simple
software license installation.
Figure 7. You can set the hardware bandwidth limit control interface per
channel at any time.
Figure 6. Measuring the noise floor of a 6-GHz scope at 1 mV/div.
Superior form factor: 6 GHz, 6 inches deep
Have you carried around your 6-GHz oscilloscope lately? With the
6000 X-Series, the multi-GHz bandwidth no longer necessitates
enormous size, weight, and power consumption. At only 6 inches
(154 mm) deep and 15 lbs. (6.8 kg), the ultra-compact form
factor consumes a maximum of only 200 watts, so you can enjoy
portability and performance at the same time.
Figure 8. One- gigahertz-per-inch form factor: 6 GHz, 6 inches deep.
07 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Visualization
The power of visualization: If you can’t see it, you
can’t fix it
Troubleshooting always starts with an acknowledgment of
the problem, and a visual confirmation adds confidence in
engineering troubleshooting. The feature-rich 6000 X-Series
oscilloscopes include numerous visualization features offered for
the first time in embedded-OS-class oscilloscopes.
Use the 6000 X-Series’ 12.1-inch multi-touch
screen just like you use your tablet or smartphone
See your waveforms clearly on the large 12.1-inch display and
discover how easy it is to troubleshoot your designs with a
multi-touch screen with gesture controls. Use the large, easily
touchable targets on the capacitive display and enjoy the fast,
responsive user interface. Pinch and zoom with your fingers to
control your signals and functions. Swipe and stop waveforms
and menus for easy operation.
Figure 9. Multi-touch operation.
Visualize the anomalies: More than 450,000
waveforms-per-second update rate
Finding infrequent anomalies is a tedious task. With the
ultrafast 450,000 waveforms-per-second update rate, the
InfiniiVision 6000 X-Series gives you the highest probability of
capturing random and infrequent events that you would miss on
oscilloscopes with lower waveform update rates.
Powered by MegaZoom IV technology, the 6000 X-Series lets you
see more waveforms and find the most difficult problems in your
design. Unlike other oscilloscopes, uncompromised waveform
update rate delivers:
–– Quick, responsive operation at all times
–– Fast update rate
–– with the digital channels on
–– with the protocol decoding on
–– with the math functions turned on
–– with the measurements turned on
Figure 10. The ultrafast waveform update rate of the 6000 X-Series
revealed the existence of rare glitches.
8 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Visualization (Continued)
Visualize by ultimate isolation: The zone touch
trigger
Visualize by protocol isolation: Serial protocol
trigger + the zone trigger
One of the biggest challenges of using an oscilloscope is setting
up an advanced trigger to isolate a signal of interest. While
advanced triggers are powerful features, setting them up can
slow you down. The zone touch trigger provides a turnkey trigger
solution. You simply observe the signal of interest on the display
and draw a zone (box) around it with your finger. What used to
take hours of work can now take just a few seconds. If you want
to move your zones to another location, just drag them over. The
6000 X-Series can be set up to easily trigger on one or two zone
boxes simultaneously with either “must intersect” or “must not
intersect” conditions. Unlike other software-based graphical
trigger solutions, the hardware-based zone triggering maintains
the fast update rate of 160,000 waveforms per second. In other
words, if you can see it, you can trigger on it.
If isolating signal anomalies is challenging, isolating analog signal
phenomenon in relation to specific serial protocol packets is a
doubly difficult task. You can trigger on CAN bus errors if your
oscilloscope has a CAN serial bus trigger and decode option,
but how would you isolate a specific CAN error message from all
others?
Use the hardware-based zone trigger along with serial protocol
triggers. In Figures 13 and 14, we isolated a CAN steering bus
error message.
Figure 13. Setting up the zone trigger in addition to a CAN bus error
packet trigger.
Figure 11. Draw a zone (box) around the anomaly.
Figure 14. Now you have isolated steering errors from all other CAN bus
errors.
Figure 12. Hardware zone triggers immediately.
9 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Visualization (Continued)
Visualize distribution and intensity: Add depth to
your analysis with color grade and histograms
Color and graphical representations add depth to your signal
analysis. With the standard color grade and histogram features,
the 6000 X-Series oscilloscopes can quickly reveal just how
often a particular event of interest occurs by providing a threedimensional quantitative view of the waveforms. Because the
6000 X-Series’ color grade operates like a separate function with
its own database, you can apply the color grade to an analog
channel, a reference waveform, or a math function such as an
FFT.
You also can turn on the histogram to an analog channel,
a reference waveform, or a math function. Apply it to a
measurement result to see graphical distributions and quickly
discover potential outliers. The measurement result histogram
display offers more insights than standard measurement statistics
can.
Figure 16a. Color grade and histogram on an FFT function.
Figure 16b. Histogram plotting the results of the pulse width
measurement.
Figure 15. Color grade and histogram on a jittery clock edge.
10 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Visualization (Continued)
Visualize signal integrity: Optional jitter analysis
and real-time eye diagram analysis
Jitter measurement has become a popular debugging technique.
However, traditional jitter analysis options are often costly and
focused on characterizations that may not be suited for real-time
debugging. The 6000 X-Series DSOX6JITTER option focuses on
real-time debugging for your everyday jitter analysis. Start your
analysis with the dedicated jitter button.
–– The integrated oscilloscope feature ensures the best realtime user debugging experience, unlike a separate software
package
–– Flexible clock recovery, supporting
–– Constant frequency
–– First-order PLL (loop bandwidth)
–– Second-order PLL (loop bandwidth and damping factor)
–– Explicit clock
–– Flexible jitter measurements
–– Data TIE
–– Clock TIE
–– N-period
–– Period-period
–– + width to + width
–– - width to - width
–– + duty cycle
–– Flexible jitter and jitter component graphical representations
–– Jitter measurement histogram
–– Displays the distribution of the jitter
–– Jitter measurement trend
–– Graphically represents the jitter value time-correlated to
the input clock data signal under test
–– Smoothing can be applied
–– Jitter spectrum
–– FFT analysis of the jitter trend to determine the frequency
component of the jitter
Figure 17. Press the jitter button on the front panel to directly access the
jitter menu.
Figure 18. Clock recovery menu and jitter
measurement menu.
Figure 19 is an example of a data TIE (time interval error) analysis
on a 1-Gbp PRBS (pseudo-random bit sequence) signal. The
data TIE measured 50-ps rms TIE jitter. The jitter trend and trend
smoothing plot quickly revealed the injected jitter to be square
periodic jitter. The jitter spectrum plot and frequency peak search
found the main jitter component to be near 500 kHz, contributing
42 ps. The event table also listed higher harmonic components
and their jitter contribution values. Finally, the histogram shape
showed a clear bimodal distribution indicating the presence of
deterministic jitter.
Figure 19. Analyzing periodic jitter (square) on a 1-Gbps PRBS signal.
11 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Visualization (Continued)
Visualize signal integrity: Optional jitter analysis
and real-time eye diagram analysis (Continued)
The real-time eye diagram with clock recovery is another
powerful and visual way to understand the signal integrity of your
waveforms (requires Option DSOX6JITTER). It quickly provides
information like eye width, eye height, and jitter and shows you
any signal anomalies. When you have an embedded clock or
explicit clock design, the real-time eye diagram might be the
only way to visualize what the input signal looks like from your
receiver’s perspective.
–– Flexible clock recovery supporting
–– Constant frequency
–– First-order PLL (loop bandwidth)
–– Second-order PLL (loop bandwidth and damping factor)
–– Explicit clock
–– Displays total UIs analyzed
–– Automatic measurements
–– Eye height
–– Eye width
Figure 20. A real-time eye diagram measurement of a clean 1-Gbps PRBS
embedded clock signal. The histogram measured about 22-ps rms jitter.
You can combine real-time eye diagram analysis with histogram
analysis to get further insight into your design.
Figure 21. A real-time eye diagram measurement of a jittery 1-Gbps PRBS
embedded clock signal. The histogram indicates a bimodal distribution
and measured about 55-ps rms jitter.
12 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Visualization (Continued)
Visualize burst events: Segmented memory — the
smart and efficient way
Acquisition memory size is an essential oscilloscope specification
because it determines the amount of data you can capture in a
single acquisition. In general, longer memory is better. However,
no memory is always long enough to capture all the signals
you need, especially when capturing infrequent anomalies
or rare critical serial bus error packets. Also, user interface
responsiveness typically slows down dramatically with the long
memory operations. Segmented memory acquisition lets you
selectively capture and store important signal activity without
capturing unimportant signal idle time, with a time stamp of each
segment relative to the first trigger event.
For example, we have captured 1000 rare glitches over a time
span of 128 seconds with 5-GSa/s resolution in Figures 22
through 24. Automatically scrolling through all segments, we
found segment 22 at 1.7 seconds after the trigger, segment 61
at 5.3 seconds after trigger, and segment 153 at 14 seconds
after the trigger contained some of the worst glitches. The new
event lister of time stamps provides quick insight into the time
gap between glitches. With traditional unsegmented memory,
640 Gpts of memory is required to do similar analysis.
Figure 22. Segmented memory graphical representation.
With the 6000 X-Series, you can combine the segmented memory
with the color grade and histogram features as well.
Figure 23. Segmented memory and color grade.
Figure 24. Segmented
memory time-tag lister.
Visualize and isolate burst events: Zone touch
trigger and segmented memory
The combination of the hardware-based zone touch trigger with
the 6000 X-Series’ segmented memory simplifies your debugging
tasks. In Figure 25, the 6000 X-Series’ serial bus trigger, zone
touch trigger, and segmented memory isolated and captured
200 CAN steering and airbag errors over a 30-second time span
at 6.1-MSa/s sampling rate in the segmented memory. This time
duration equates to 192 Mpts of traditional memory.
Captured error packets are displayed chronologically at the side
of the screen in the event lister so you can easily look up time
stamps. You can independently save the time stamp information
as well.
Figure 25. Segmented memory + serial bus decode + zone trigger.
13 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration
Take advantage of a new oscilloscope application bundle that will
enable ALL software applications (including serial decode and
WaveGen) for one low price (Option DSOX6APPBNDL).
More than just an oscilloscope, it’s 7 instruments
in 1
Keysight Technologies, Inc. pioneered multiple-instrument
integration with the release of the mixed signal oscilloscope
(MSO) in 1996. The InfiniiVision 2000/3000/4000X-Series took
the concept to the next level by integrating five instruments in
one in 2011. The InfiniiVision 6000 X-Series now integrates seven
instruments in one to establish a new integration standard.
–– Oscilloscope
–– 16 digital channels (mixed signal)
–– Serial protocol analyzer
–– Dual-channel 20-MHz function/arbitrary waveform
generator
–– Frequency response analysis
–– 3-digit voltmeter
–– 10-digit counter with totalizer
Figure 26. Analog and digital signals displayed together with the logic
timing chart function.
All features and bandwidth are upgradable.
Integrate a digital bus: Optional mixed signal
oscilloscope (MSO models)
With an additional optional 16 integrated digital channels (Option
DSOX6MSO) probed by a newly designed digital channel cable,
you now have up to 20 channels of time-correlated triggering,
acquisition, and viewing on the same instrument. This capability
is especially important in today’s embedded designs with
sophisticated digital control circuitry.
Figure 27. MSO with a new digital channel cable.
Integrate a generator: Optional dual-channel
20-MHz function/arbitrary waveform generator
An optional integrated dual-channel 20-MHz function/arbitrary
waveform generator (Option DSOX6WAVEGEN2) is available for
the 6000 X-Series. The integrated generator can provide stimulus
outputs of sine, square, ramp, pulse, DC, noise, sine, cardinal
(sinc), exponential rise, exponential fall, cardiac, Gaussian
pulse and arbitrary waveforms to your device under test. Signal
modulation capability is also available.
With the arbitrary waveform functionality, you can store
waveforms from analog channels or reference memories to
the arbitrary memories with a single touch and output from
WaveGen.
Easily create and edit the waveform using the built-in waveform
editor or export the data in a .csv file and edit it with your favorite
editing tool.
Figure 28. Arbitrary waveform generation signal editing screen.
14 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Integrate protocol analysis: Optional hardwarebased serial bus protocol decode and trigger
Keysight Technologies, Inc. InfiniiVision X-Series scopes
are the only oscilloscopes that use hardware-based serial
protocol decoding. Other vendors’ oscilloscopes use software
post-processing techniques to decode serial packets ⁄ frames.
Software implementations have slow waveform and decode
capture rates and can miss critical events and errors due to long
dead-times. Faster decoding with hardware-based technology
enhances your probability of capturing infrequent serial
communication errors. Some serial protocol decodes come with a
standard event counter, which is another benefit of the hardwarebased implementation.
After capturing serial bus communication, you can easily
perform a search operation based on specific criteria and then
quickly navigate to bytes/frames of serial data that satisfy
that search criteria. The 6000 X-Series can decode two serial
buses simultaneously using hardware-based decoding, and
display the captured data in a time interleaved lister display.
The 6000 X-Series has eight options supporting 10 different
serial protocols, including I2C, SPI 1, USB 2.0, RS232/UART,
CAN (CAN-dbc), CAN-FD (ISO and non-ISO), LIN, LIN symbolic,
SENT, FlexRay, MIL-STD 1553, ARINC 429, I²S, user-definable
Manchester, user-definable NRZ, and USB PD (see page 26).
1.
Figure 29. Dual-channel generator generating a differential signal.
SPI trigger and decode requires 4, 2+16, or 4+16 channel 6000 X-Series.
Figure 30. USB 2.0 protocol trigger and decode option display.
15 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Frequency Response Analysis (FRA) Option
Frequency Response Analysis (FRA) is an often-critical
measurement used to characterize the frequency response (gain
and phase versus frequency) of a variety of today’s electronic
designs, including passive filters, amplifier circuits, and negative
feedback networks of switch mode power supplies (loop
response). InfiniiVision 6000 X-Series oscilloscopes licensed with
the DSOX6FRA option use the oscilloscope’s built-in waveform
generator (WaveGen) to stimulate the circuit under test at various
frequency settings and capture the input and output signals
using two oscilloscope channels. At each test frequency, the
oscilloscope measures, computes, and plots gain (20LogVout/
Vin) and phase logarithmically.
Integrate a quick tester: Standard 3-digit digital
voltmeter
There is a standard built-in 3-digit voltmeter (DVM) on your 6000
X-Series oscilloscope. The voltmeter operates through the
same probes as the oscilloscope channels. However, the DVM
measurements are made independently from the oscilloscope
acquisition and triggering system so you can make both the DVM
and triggered oscilloscope waveform captures with the same
connection. The voltmeter results are always displayed, keeping
these quick characterization measurements at your fingertips.
Figure 31. DVM display.
16 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Integrate frequency measurements: Standard
10-digit counter and totalizer
With the 6000 X-Series’ standard 10-digit counter, your
expectations of an oscilloscope counter will be redefined.
Traditional oscilloscope counter measurements offer only five
or six digits of resolution. While this level of precision is fine for
quick measurements, it falls short of expectations when the
most critical frequency measurements are being made. With the
integrated 10-digit counter in the 6000 X-Series, you can see
your measurements with the precision you would normally expect
only from a standalone counter. Because the integrated counter
measures frequencies up to a wide bandwidth of 3.2 GHz, you
can use it for many high-frequency applications as well. If you
are looking for the ultimate precision, you can optionally connect
your 6000 X-Series oscilloscope to your most trusted 10-MHz
reference source to share a common 10-MHz clock.
Figure 34. Totalizing the number of CAN errors.
The totalizer feature of the counter option adds another valuable
capability to the oscilloscope. It can count the number of events
(totalize), and it also can monitor the number of trigger-conditionqualified events. Note, the trigger-qualified events totalizer
does not require an actual trigger to occur. It only requires a
trigger-satisfying event to take place. In other words, the totalizer
can monitor events faster than the trigger rate of a scope, as fast
as 25 million events per second (a function of the oscilloscope’s
holdoff time, which has the minimum of 40 ns). Figures 34 and
35 show examples of a totalizer counting the number of FlexRay
error packets and the number of runt signals that took place in a
design.
Figure 35. Totalizing the number of runt errors.
Figure 32. 10-digit counter making precise frequency measurement on a
2.5-GHz signal.
Figure 33. The precise 10-digit counter found the true frequency of a
clock to be a little less than 20 MHz.
17 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Spectrum analysis and Multi-domain analysis:
Enhanced color FFT function with peak search
The enhanced color FFT takes your experience of oscilloscopebased spectrum analysis to the next level.
–– Color grade immediately shows you the frequency and
amplitude distributions of your signal.
–– The frequency peak search eliminates tedious cursor
measurements.
–– The peak search event lister provides frequency and
amplitude information for up to 11 peaks, sorting them in the
order of the frequency or the amplitude.
–– Set frequencies in “start and stop” or “center and span.”
–– FFT max hold, min hold, and frequency average plots are also
available through the math functions. Displays up to four
functions simultaneously.
Figure 36. Enhanced color FFT with an automatic peak search and FFT
histogram turned on. Min/max hold and average FFT also available.
Multi-domain time correlated measurements with
Gated FFT
The new problem solving feature called “gated FFT” lets you
time correlate the analog, digital, and frequency domain to aid in
analysis and debug. When the gated FFT is on, the oscilloscope
goes into zoom mode. The FFT analysis shown in the zoomed
(bottom) window is taken from the period of time indicated by
the zoom box in the main (top) window. Touch and move/flick the
zoom box through the acquisition to investigate how the spectrum
components change over time, correlating the RF phenomenon
with the analog and digital signals.
Figure 37a shows the Gated FFT correlating the turn-on of a PLL
with an associated SPI command and the spectrum contents
at a given time (the boxed area in the top/main window). By
moving the Gated FFT zoom box, you can quickly see the
spectrum contents at another time slot. Note, unlike the scopes
with the RF input, you can actually see the RF signal in the time
domain (channel 4 magenta trace) to quickly grasp its amplitude
information as well.
Figure 37a. Gated FFT time correlating the PLL voltage, SPI command
and spectrum content at a given time span.
Figure 37b shows the Gated FFT correlating the FSK frequency
hop from 400 kHz to 3.2 MHz and its related I2C command. Again,
the Gated FFT revealed the relationship of the hopping signal to
the control command (I2C).
Figure 37b. Gated FFT time correlating the FSK frequency hopping with
an I2C command (write 7 at 0x71 data 10).
18 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Talk to me: Multi-language voice control powered
by Nuance
Today’s devices operate with voice controls. Your smartphone
and car navigation system respond to your voice commands.
Why not your oscilloscopes? The 6000 X-Series oscilloscopes’
new voice control capability not only listens to you, but it
understands you in your native language. Experience hands-free
oscilloscope operation by running familiar commands like “run,”
“stop,” “single,” and “auto scale.” It supports 20 commands
in 14 different languages and is powered by the Nuance
Communications, Inc. voice recognition engine.
You can operate the 6000 X-Series in the language most familiar
to you. The graphical user interface, built-in help system, front
panel overlays, and user’s manuals are available in 11 languages.
During operation, access the built-in help system just by pressing
and holding any button or touching and holding any related icons.
Figure 39. Voice control microphone and speaker.
Using the built-in speaker, the 6000 X-Series beeps to alert you
to various events like a single trigger, mask test failure, calibration
setup, and more.
Figure 40. Limit testing of infrequent glitch.
Figure 38. Language list.
19 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Optional mask/limit testing
Whether you are performing pass/fail tests to specified standards
in manufacturing or testing for infrequent signal anomalies,
mask/limit testing (Option DSOX6MASK) can be a valuable
productivity tool. The 6000 X-Series features powerful hardwarebased mask testing and can perform up to 130,000 tests per
second. You can select multiple test criteria, including the ability
to run tests for a specific number of acquisitions, a specified time,
or until detection of a failure. You can set the 6000 X-Series to
beep when the mask fails.
Figure 41. Mask testing of serial data.
Find events faster with search and navigation
features
Parametric and serial bus search and navigation features come
standard on the 6000 X-Series oscilloscopes. When you are
capturing long, complex waveforms using an oscilloscope’s
acquisition memory, manually scrolling through stored waveform
data to find specific events of interest can be slow and
cumbersome. With automatic search, navigation, and listing,
you can easily set up specific search criteria and then quickly
navigate to “found and marked” events. Available search criteria
include edges, pulse width (time-qualified), rise/fall times (timequalified), runt pulses (time- and level-qualified), frequency peaks
(up to 11 peaks), and serial bus frames, packets, and errors. The
side-bar lister gives you an overview of the time tag of each found
event relative to the trigger location.
Figure 42. Searching for and navigating to a specific pulse width.
20 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Optional power measurements and analysis
When you are working with switching power supplies and
power devices, the power measurements application (Option
DSOX6PWR) provides a full suite of power measurements and
analysis in the oscilloscope. Included with Option DSOX6PWR
is a license for the U1881A PC-based power analysis software
package, which provides additional offline measurements and
report generation.
See www.keysight.com/find/DSOX6PWR for more information.
Figure 43. Power quality analysis screenshot.
Automate your testing with optional USB 2.0
signal quality analysis
With the USB 2.0 signal quality test option (Option
DSOX6USBSQ), designers of systems with USB interfaces can
automate signal quality testing. This option supports low-speed,
full-speed, and hi-speed applications (hi-speed tests require an
oscilloscope with a bandwidth of at least 1.5 GHz). The USB 2.0
signal quality test with HTML pass/fail report generation includes
eye diagram mask testing, jitter analysis, EOP bit-width, signaling
rate, edge monotonicity, and rise/fall times — all based on official
USB-IF algorithms embedded in the oscilloscope.
See www.keysight.com/find/DSOX6USBSQ for more information.
Figure 44. USB 2.0 Hi-speed near-end eye pattern test.
21 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Optional HDTV video triggering and analysis
Whether you are debugging consumer electronics with HDTV
or characterizing a design, the HDTV measurement application
(Option DSOX6VID) provides support for a variety of HDTV
standards for triggering and analysis. The 450,000 waveforms/
sec capture rate of the 6000 X-Series, coupled with its intensitygraded view of the signal, provides even more details than a
traditional analog oscilloscope.
See www.keysight.com/find/DSOX6VID for more information.
Hardware and software bandwidth limit filters
(low-pass filters)
More bandwidth generally enhances your measurements except
when you want to limit excess noise coming from additional
bandwidth. The 6000 X-Series oscilloscopes provide two
standard bandwidth-limiting filters, one in the hardware and the
other implemented in software (a math function). Now you can
select the optimal bandwidth for your measurement.
Hardware bandwidth
filter
Software bandwidth
filter (low pass filter
function)
1 MΩ
50 Ω
20 MHz, 200 MHz
20 MHz, 200 MHz, 1.5 GHz 1,
3 GHz 2
1 Hz through bandwidth of
scope
1. With 2.5 GHz, 4 GHz, or 6 GHz licensed 6000 X-Series only.
2. With 4 GHz or 6 GHz licensed 6000 X-Series only.
High-resolution mode for viewing signal details
To gain more confidence in your designs, sometimes you need to
look into more signal detail than you can see with the standard
8-bit vertical resolution of the 6000 X-Series oscilloscopes.
High-resolution mode offers additional resolution and insight into
the signal, without requiring a repetitive signal. Using real-time
boxcar averaging, high-resolution mode reduces random noise
and effectively increases vertical resolution up to 12 bits.
Figure 45. Triggering on a 1080p/60 signal.
22 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Advanced math functions — display four
simultaneously
The 6000 X-Series provides the most advanced math analysis
in an embedded-OS-based oscilloscope. You can nest together
multiple math functions and display up to four math functions
simultaneously. You also can apply color grade capability and
histograms to a math function to gain further insights.
Operators
–– Add, subtract, multiply, divide
Transforms
–– Differentiate, integrate
–– FFT
–– Ax + B
–– Squared, square root
–– Absolute value
–– Common logarithm, natural logarithm
–– Exponential, base 10 exponential
Figure 47. Function selection menu. Swipe and double touch to select.
Filters
–– Low-pass filter, high-pass filter
–– Averaged value
–– Smoothing
–– Envelope
Visualizations
–– Magnify
–– Max hold, min hold
–– Measurement trend
–– Chart logic bus timing, chart logic bus state (requires MSO)
–– Clock recovery (requires Option DSOX6JITTER)
Figure 48. Four math functions used simultaneously (three turned on).
23 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
56 automatic measurements — display up to
10 simultaneously
Automatic measurements are an essential tool for an
oscilloscope. In order to make quick and efficient measurements,
the 6000 X-Series provides 56 powerful automatic measurements
and can display up to 10 at a time along with measurement
statistics. Measurements can be gated by auto select, main
window, zoom window, or cursors. The oscilloscope can
also automatically select the best gating. Some automatic
measurements require an option installation or specific probe
connection.
Figure 50. Measurement selection menu. Swipe and double touch to
select.
Figure 49. Measurement gating screen.
Reference waveforms — display four
simultaneously
Store up to four waveforms in the oscilloscope’s nonvolatile
reference waveform memory. Compare reference waveforms with
live waveforms, and perform post analysis and measurements
on stored data. You can also store waveforms on a removable
USB memory device in *.h5 format and recall them back into the
oscilloscope’s reference waveform memory later. Save or transfer
waveforms to a PC as XY data pairs in a comma-separated-values
format (*.csv), or store bitmap images and transfer them to a PC
for documentation purposes in a variety of image formats.
Figure 51. Reference waveforms.
24 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Connectivity and LXI compatibility
Standard USB 2.0 hi-speed host ports (two on front, one on
back) and device ports (one on back) make PC connectivity easy.
Operate the oscilloscope from your PC and save/recall stored
waveforms and setup files via standard LAN (LXI IPv6 Extended
Function). Connect your projector or external monitor through the
VGA output, standard with the 6000 X-Series, when sharing and
presenting screen information. An optional external GPIB-to-LAN
adapter is also available (N4865A).
The BV0004B oscilloscope control and automation application
within BenchVue lets you control and visualize the 6000 X-Series
and multiple measurements simultaneously. It lets you build
automated test sequences just as easily as you can with the
front panel. Save time with the ability to export measurement
data to Excel, Word and MATLAB in three clicks. Monitor and
control your 6000 X-Series with a mobile device from anywhere.
Simplify your testing with BenchVue software. Learn more at
www.keysight.com/find/benchvue.
Figure 52. Connectivity section on the back panel.
25 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Integration (Continued)
Visual front panel
The 6000 X-Series’ innovative capacitive touch screen is
compatible with the latest tablet technologies. In addition to
the traditional VNC-based virtual front panel remote operation
through your favorite PC Web browser, the 6000 X-Series
supports remote oscilloscope control from your tablet devices.
The tablet virtual front panel is identical to the 6000 X-Series’
touch GUI so you can touch icons, swipe, draw zone touch trigger
zones, and drag slide panels as if you are sitting in front of the
actual oscilloscope.
Documentation and email without connecting to
your PC
Annotation is a simple task with 6000 X-Series oscilloscopes.
Bring up the annotation (up to 10 annotations) on your scope
display and edit it using the keypad, then drag it to the desired
location. Quick email allows you to email the data you want
instantly to your inbox. Send out screenshots, waveform data, or
even a USB signal quality test report — all without the hassle of
connecting your PC to your oscilloscope.
Figure 53. Controlling the 6000 X-Series via tablet device.
QuickAction key
The QuickAction key lets you assign your favorite operation to a
customizable front panel key. With a push of a button, save your
waveforms, capture your screen, toggle trigger mode, resets,
statistics, and more.
Figure 55. QuickAction menu.
Figure 54. Quick Freeze Display preserves the persistence.
26 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Powerful probe solutions and compatibility
Get the most out of your 6000 X-Series oscilloscope by using
Keysight’s complete family of innovative probes and accessories
for your application. The 6000 X-Series supports up to four active
probes simultaneously with its full AutoProbe interface 1.
All 6000 X-Series oscilloscopes come standard with probes for
each channel. The 700-MHz bandwidth, 10-MΩ input passive
probes give you 700-MHz system bandwidth when used in
conjunction with the 6000 X-Series.
Also available is the N2750/51/52A InfiniiMode differential probe
(1.5 to 6 GHz) and N2795A/96A/97A single-ended active probe
for high-signal-fidelity measurements without the high price (1 to
2 GHz).
Figure 56. N2820A Series high-sensitivity current probe.
For ultra-low current measurements on your mobile or IoT
devices, the N2820A Series high sensitivity current probes are the
best solution in the industry. The new N7020A Power Rail Probe
is the industry’s only probe designed and developed to solve your
toughest power integrity problems.
For the most up-to-date and complete information about
Keysight’s probes and accessories, visit our website at
www.keysight.com/ind/scope_probes or refer to the InfiniiVision
Probes and Accessories Data Sheet, Keysight publication number
5968-8153EN.
1.
Some restrictions may apply. Contact Keysight for details.
Figure 57. Capturing both zoom out and zoom in view of a cell phone’s
current consumption inside and outside of its sleep state.
Figure 59. N7020A Power Rail Probe vs. standard 10:1 passive probe.
Figure 58. N7020A Power Rail Probe.
27 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
Infiniium Offline oscilloscope analysis software
Keysight’s Infiniium Offline PC-based oscilloscope analysis
software (N8900A) allows you to do additional signal
viewing, analysis, and documentation tasks away from your
oscilloscope. Capture waveforms, save to a file, and recall
the waveforms into InfiniiView. The application supports a
variety of popular waveform formats from multiple oscilloscope
vendors and includes the following features: navigate, view,
measurements, analyze, view windows, documentation,
and optional analysis upgrades. For more information, visit
www.keysight.com/find/InfiniiumOffline.
Probe and accessories storage compartment
Figure 60. N8900A Infiniium Offline software.
Probes and cables get lost easily. When we packaged 6 GHz of
bandwidth in the shallowest form factor, we left enough room for
you to store your daily probes and small accessories.
2-year calibration interval
Through improved quality processes and rigorous testing, the
Keysight InfiniiVision 6000 X-Series oscilloscope is able to
perform at the guaranteed specifications for two years without
calibration, thereby reducing your cost of ownership. It also has
an impressive 120,000 hours of operation MTBF (mean time
before failure) specification.
Ensure the highest level of security with secure
erase
The secure erase feature comes standard with all 6000 X-Series
models. At the press of a button, the oscilloscope’s internal
nonvolatile memory is cleared of all setup information, reference
waveforms, and user preferences.
Figure 61. Storage compartment.
28 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
New Standard for Price Performance: Bandwidth, Visualization, and Integration
The portable oscilloscope class-leading
6 GHz upgradable bandwidth expands your
application coverage including PCI Express.
Designed for Touch. 12.1-inch capacitive
multi-touch screen with gesture support
sets a new visualization standard.
Not a touch screen fan? You can turn off the
touch screen.
Zone touch trigger. If you can see it, you can
trigger on it by drawing a zone box.
7-in-1 instrument sets a new integration
standard: oscilloscope channels, digital
channels, serial protocol analysis, dualchannel WaveGen, frequency response
analysis, digital voltmeter, and 10-digit
counter-totalizer. Fully upgradable, including
bandwidth.
Standard color grade and histogram on a
waveform, measurement, or math function
adds statistical view.
Jitter and real-time eye diagram analysis
is available for the first time ever in an
embedded-OS-platform oscilloscope.
Dual-channel WaveGen function/arbitrary
generator allows you to generate differential,
clock and data, two channel modulation, and
IQ signals. Modulation capability included.
Both USB keyboard and mouse
are supported in 6000 X-Series for
additional ease of use.
29 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
450,000 waveforms per second update rate
minimizes the dead-time for maximum probability
of capturing infrequent events and anomalies.
Multi-language voice control enables
hands-free operation while you are
holding probes.
Using docking panels with the capacitive
touch screen adds a new dimension of
usability. Move automatic measurements,
cursors information, event lister, histogram,
navigation, DVM, and the counter pane
anywhere on the screen. Transparent panes
are supported.
Standard advanced math displays four
functions simultaneously for the most
sophisticated signal analysis.
Display up to 10 measurements with statistics
simultaneously without compromising other
key information. Supports 56 automatic
measurements and gating by cursors.
Industry’s only integrated digital voltmeter
and 10-digit counter with totalizer.
Independent knobs per channel for fast
operation. All front-panel knobs are push-able
for access to common controls such as fine
and coarse control.
Standard segment memory with event lister
is powered by MegaZoom IV smart memory
technology to intelligently capture only the
signals of interest.
Wide coverage of application and serial
protocol solutions including USB 2.0 signal
quality analysis.
Four AutoProbes (active and current
probes) are supported simultaneously
for demanding applications.
30 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Configure your InfiniiVision 6000 X-Series Oscilloscope
Step 1. Choose your number of channels
InfiniiVision 6000 X-Series oscilloscopes
Input channels
DSOX6002A
DSOX6004A
MSOX6002A
MSOX6004A
2
4
2 + 16
4 + 16
1 GHz
Default
2.5 GHz
DSOX6B10T252BW
Step 2. Choose your bandwidth
Bandwidth options
For 2 channel models
* Examples
4 GHz
DSOX6B10T402BW
6 GHz
DSOX6B10T602BW
For 4 channel modes
Default
DSOX6B10T254BW
DSOX6B10T404BW
DSOX6B10T604BW
If you want 1 GHz, 4 + 16 channel, the model configuration will be MSOX6004A only
If you want 4 GHz, 4 + 16 channel, the model configuration will be MSOX6004A and DSOX6B10T404BW
Step 3. Tailor your oscilloscope with measurement applications to save time and money
Bandwidth, feature, and application upgrades
Application bundle
Software application bundle
Serial protocols
MIL-STD 1553 and ARINC 429 serial triggering and analysis
Audio serial triggering and analysis (I2S)
Automotive serial triggering and analysis (CAN, CAN-dbc, CAN-FD, LIN)
Computer serial triggering and analysis (RS232/UART)
Embedded serial triggering and analysis (I2C, SPI)
(SPI requires 4, 2+16, or 4+16 channel 6000 X-Series)
FlexRay serial triggering and analysis
SENT (Single Edge Nibble Transmission) triggering and analysis
CXPI triggering and decode
USB 2.0 Full/Low Speed serial decode and triggering
USB 2.0 Hi-Speed serial decode and triggering
USB PD serial decode and triggering
User-definable Manchester/NRZ triggering and decode
Measurement applications
Jitter and real time eye diagram analysis
Mask limit testing
Frequency Response Analysis (FRA)
Power analysis application
USB 2.0 signal quality test
Enhanced video/TV application package
Dual channel WaveGen 20 MHz AWG
Productivity tools
Infiniium offline oscilloscope analysis software
User-defined Application (UDA) PC software
BenchVue oscilloscopes application
Model number
DSOX6APPBNDL (includes DSOX6EMBD, DSOX6COMP, DSOX6USBFL,
DSOX6USBH, DSOX6AUTO, DSOX6FLEX, DSOX6AUDIO, DSOX6AERO,
DSOX6JITTER, DSOX6WAVEGEN2, DSOX6PWR, DSOX6MASK,
DSOX6USBSQ, DSOX6VID, DSOX6SENSOR, DSOX6CXPI, DSOX6NRZ,
DSOX6FRA)
DSOX6AERO
DSOX6AUDIO
DSOX6AUTO
DSOX6COMP
DSOX6EMBD
DSOX6FLEX
DSOX6SENSOR
DSOX6CXPI
DSOX6USBFL
DSOX6USBH
DSOX6UPD
DSOX6NRZ
DSOX6JITTER
DSOX6MASK
DSOX6FRA
DSOX6PWR
DSOX6USBSQ
DSOX6VID
DSOX6WAVEGEN2
N8900A
N5467B/C
BV0004B
31 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Configure your InfiniiVision 6000 X-Series Oscilloscope (Continued)
Step 4. Choose your probes. For a complete list of compatible probes, see Keysight document
5968-8153EN
Probes
N2894A passive probe 700 MHz, 10:1, 9.5 pF, 10 MΩ
N2756A 16 digital channel MSO cable
N2870A passive probe 35 MHz, 1:1, 1 MΩ
10076B high-voltage passive probe (4 kV)
N2796A active single-ended probe 2 GHz, 1 pF, 1 MΩ with AutoProbe
N2797A active single-ended probe 1.5 GHz, extreme temperature
N2750A InfiniiMode differential probe 1.5 GHz, 700 fF, 200 kΩ with AutoProbe
N2751A InfiniiMode differential probe 3.5 GHz, 700 fF, 200 kΩ with AutoProbe
N2752A InfiniiMode differential probe 6.0 GHz, 700 fF, 200 kΩ with AutoProbe
N2790A differential active probe 100 MHz, ± 1.4 kV, 4 MΩ with AutoProbe
N2819A 800-MHz, 10:1 differential probe, 200 kΩ with AutoProbe
1147B AC/DC current probe, 50 MHz, 15 A with AutoProbe
N2893A AC/DC current probe, 100 MHz, 15 A with AutoProbe
N2820A 2-channel high-sensitivity current probe, 50 µA to 5 A
54855-67604 Precision BNC to SMA adapter
N7020A power rail probe 2 GHz, 1:1, 50 kΩ, ± 24 V offset range
N2804A high voltage differential probe, 300 MHz, ± 300 V (DC + peak AC), 100:1, 4-MΩ, 4 pF
N7040A 23 MHz, 3 kA, AC current probe
N7041A 30 MHz, 600 A, AC current probe
N7042A 30 MHz, 300 A, AC current probe
N7026A 150 MHz, 40 Apk, AC/DC high-sensitivity current probe with AutoProbe
Standard/Optional
Included standard; 1 per channel
Included standard on MSOX models and DSOX6MSO
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Step 5. Choose your accessories and calibration plans
Recommended accessories and calibration plans
GPIB connection module
Rack mount kit
Soft carrying case
Hard copy manual
Hard transit case - available from Case Cruzer
(http://www.casecruzer.com/oscilloscope/3a1311-2710j.html)
ANSI Z540-1-1994 calibration
ISO17025 compliant calibration with accreditation
Model number
N4865A
N2111A
N2733B
N2112A
3A1311-2710J
D/MSOX6000-A6J
D/MSOX6000-AMG
After-purchase bandwidth and digital channel upgrades
Recommended accessories
1.0 to 2.5 GHz bandwidth upgrade, 2 ch, fixed perpetual license
1.0 to 4.0 GHz bandwidth upgrade, 2 ch, fixed perpetual license
1.0 to 6.0 GHz bandwidth upgrade, 2 ch, fixed perpetual license
2.5 to 4.0 GHz bandwidth upgrade, 2 ch, fixed perpetual license
2.5 to 6.0 GHz bandwidth upgrade, 2 ch, fixed perpetual license
4.0 to 6.0 GHz bandwidth upgrade, 2 ch, fixed perpetual license
1.0 to 2.5 GHz bandwidth upgrade, 4 ch, fixed perpetual license
1.0 to 4.0 GHz bandwidth upgrade, 4 ch, fixed perpetual license
1.0 to 6.0 GHz bandwidth upgrade, 4 ch, fixed perpetual license
2.5 to 4.0 GHz bandwidth upgrade, 4 ch, fixed perpetual license
2.5 to 6.0 GHz bandwidth upgrade, 4 ch, fixed perpetual license
4.0 to 6.0 GHz bandwidth upgrade, 4 ch, fixed perpetual license
InfiniiVision 6000 X-Series oscilloscope MSO upgrade
Model number
DSOX6B10T252BW
DSOX6B10T402BW
DSOX6B10T602BW
DSOX6B25T402BW
DSOX6B25T602BW
DSOX6B40T602BW
DSOX6B10T254BW
DSOX6B10T404BW
DSOX6B10T604BW
DSOX6B25T404BW
DSOX6B25T604BW
DSOX6B40T604BW
DSOX6MSO
32 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics
DSOX/MSO 6000 X-Series digital storage/mixed signal oscilloscopes
6000 X-Series specification overview
Half channel bandwidth 1 (–3 dB)
Full channel bandwidth 1 (–3 dB)
Full channel equivalent time bandwidth 1 (–3 dB)
Calculated rise time (10 to 90%)
Input channels
DSOX6002A
DSOX6004A
MSOX6002A
MSOX6004A
Maximum sample rate
Maximum memory depth
Display size and type
Waveform update rate
Typical noise floor at 1 mV/div, 50 Ω
Vertical system analog channels
Hardware bandwidth
1 MΩ
limits
50 Ω
Input coupling
Input impedance
Input sensitivity range
1 MΩ
50 Ω
Vertical resolution
Maximum input voltage 1 MΩ
50 Ω
DC vertical gain accuracy 1
DC vertical offset accuracy
Channel-to-channel isolation
Offset range
1 MΩ
50 Ω
Dynamic range
1 MΩ
50 Ω
Noise floor at 50 Ω
1 mV/div
10 mV/div
100 mV/div
1 V/div
ESD tolerance
1.
2.
1 GHz
2.5 GHz
4 GHz
1 GHz
2.5 GHz
4 GHz
N/A
N/A
N/A
≤ 350 ps
≤ 140 ps
≤ 112.5 ps
2
4
2 + 16
4 + 16
20 GSa/s half channels, 10 GSa/s full channels
Standard 4 Mpts, Standard segment memory
12.1-inch capacitive multi-touch/gesture-enabled display
> 450,000 waveforms per second
115 μVrms
150 μVrms
150 μVrms
6 GHz
4 GHz
6 GHz
≤ 75 ps
210 μVrms
20 MHz, 200 MHz (selectable per channel)
20 MHz, 200 MHz, 1.5 GHz, 3 GHz (selectable per channel)
AC, DC
Selectable: 1 MΩ ± 1% (14 pF), 50 Ω ± 3%
1 mV/div to 5 V/div 2 (200 MHz bandwidth limit at ≤ 2 mV/div)
1 mV/div to 1 V/div 2
8 bits (measurement resolution is 12 bits with averaging)
300 Vrms, 400 Vpk; transient overvoltage 1.6 kVpk
Frequency derating (assumes sine wave input): 400 Vpk until 40 kHz
Then derates at 20 db/dec until 6 Vpk
50 Ω: ± 5Vpk max
± 3 div: 1.5% of full scale (typical)
± 4 div: 2.5% of full scale (warranted) 2
± 0.1 div ± 2 mV ± 1% of offset setting (valid for an offset of ≤ ± 12 divisions)
≥ 100:1 (DC to 1 GHz), ≥ 30:1 (> 1 GHz)
± 5 V (1 to < 10 mV/div), ± 20 V (10 to ≤ 200 mV/div), ± 100 V (> 200 mV/div)
± 12 div or ± 0.8 V, whichever is smallest (≤ 100 mV/div)
± 12 div or ± 4 V, whichever is smallest (> 100 mV/div)
± 8 divisions from center screen (≤ 100 mV/div), 2nd harmonic distortion of - 40 dbc
± 4 divisions from center screen (> 101 mV/div), 2nd harmonic distortion of - 23 dbc
(For a 10:1 probe on the 1 MΩ input, vertical scaling is multiplied by 10)
± 8 divisions from center screen
1 GHz
2.5 GHz
4 GHz
6 GHz
115 µVrms
150 µVrms
150 µVrms
210 µVrms
330 µVrms
355 µVrms
350 µVrms
395 µVrms
3.15 mVrms
3.25 mVrms
3.20 mVrms
3.35 mVrms
31.5 mVrms
32.5 mVrms
32 mVrms
33.5 mVrms
± 2 kV (on input BNCs)
Denotes warranted specifications; All others are typical. Specifications are valid after a 30-minute warm-up period and ± 10 °C from firmware calibration
temperature.
1 mV/div is a magnification of 2 mV/div setting. For vertical accuracy calculations, use full scale of 16 mV for 1 mV/div sensitivity setting.
33 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
DSOX/MSO 6000 X-Series digital storage/mixed signal oscilloscopes (Continued)
Vertical system digital channels
Digital input channels
Thresholds
Threshold selections
User-defined threshold range
Maximum input voltage
Threshold accuracy 1
Maximum input dynamic range
Minimum voltage swing
Input impedance
Input capacitance
Vertical resolution
16 digital (D0 to D15. Pod 1: D7 ~ D0, Pod 2: D15 ~ D8)
Threshold per pod
TTL (+1.4 V), 5V CMOS (+2.5 V), ECL (–1.3 V), user-defined (selectable by pod)
± 8.0 V in 10-mV steps
± 40 V peak
± (100 mV + 3% of threshold setting)
± 10 V about threshold
500 mVpp
100 kΩ ± 2% at probe tip
~8 pF
1 bit
Horizontal system analog channels
Time base range
Time base accuracy 1
Time base resolution
Time base delay time
Pre-trigger
range
Post-trigger
Channel-to-channel deskew range
Δ time accuracy (using cursors)
Modes
XY
Horizontal system digital channels
Minimum detectable pulse width
Channel-to-channel skew
1.
1 GHz
2.5 GHz
4 GHz
6 GHz
500 ps/div to 50 s/div
100 ps/div to 50 s/div
100 ps/div to 50 s/div
100 ps/div to 50 s/div
± 1.6 ppm + aging factor
(1 year: ± 0.5 ppm, 2 years: ± 0.7 ppm, 5 years: ± 1.5 ppm, 10 years: ± 2.0 ppm)
2.5 ps
Greater of 1 screen width or 50 µs
1 s to 500 s
± 100 ns
Same channel: ± (time base accuracy x reading) ± (0.0016 x screen width) ± 10 ps
Channel-to-channel: ± (time base accuracy x reading) ± (0.0016 x screen width) ± 15 ps
Main, zoom, roll, XY
On channels 1 and 2 only. Z blanking on ext trigger input, 1.4 V threshold
Bandwidth: maximum bandwidth. Phase error at 1 MHz: < 0.5 degree
2 ns
2 ns (typical); 3 ns (maximum)
Denotes warranted specifications; All others are typical. Specifications are valid after a 30-minute warm-up period and ± 10 °C from firmware calibration
temperature.
34 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Acquisition system
Maximum analog channels sample rate
Analog channels equivalent sample rate
Maximum analog
≤ 2 GSa/s
channels record length > 2 GSa/s
Maximum digital channels sample rate
Maximum digital channels record length
Acquisition mode
Normal
Peak detect
Averaging
High resolution
Segmented
Data acquisition mode
Real time
Max update rate
Equivalent
Time mode
Normal
Roll
XY
Trigger system
Trigger sources
Trigger modes
Trigger coupling
Trigger holdoff range
Normal
Auto
Single
Force
DC
AC
HF reject
LF reject
Noise reject
1 GHz
2.5 GHz
4 GHz
6 GHz
20 GSa/s half channel interleaved, 10 GSa/s all channel
Not available
400 GSa/s
4 Mpts half channel interleaved, 2 Mpts all channel
1 Mpts half channel interleaved, 500 kpts all channel
2 GSa/s half pods interleaved, 1 GSa/s all pods
4 Mpts half pods interleaved, 2 Mpts all pods
Default mode
Analog channels: Capture glitches as narrow as 500 ps (half channel), 1 ns (all channel)
Digital channels: Capture glitches as narrow as 500 ps (half pods), 1 ns (all pods)
Selectable from 2, 4, 8, 16, 64, ... to 65,536
Real-time boxcar averaging reduces random noise and effectively increases vertical resolution
12 bits: ≥ 20 μs/div at 2 GSa/s or ≥ 50 μs/div at 1 GSa/s
Segmented memory optimizes available memory for data streams that have long dead times
between activity. Maximum segments = 1000. Re-arm time = As fast as 1 μs (minimum time
between trigger events)
Default mode (> 135,000 waveforms/sec)
Enhanced real-time mode for the fastest waveform update rate of > 450,000 waveforms/sec. Up to
2 GSa/s. Returns to a normal real-time mode at > 2 GSa/s
Available with 6-GHz bandwidth license. The time base must be at 20 ns/div or faster. 2.5-ps fine
interpolator resolution yields a maximum effective sample rate of 400 GSa/s
Default mode
Displays the waveform moving across the screen from right to left. Available at time bases 50 ms/div
or slower
Shows the volts-versus-volts display. Time base can be set from 200 ns/div to 50 ms/div
Analog channel (1~4), digital channel (D0~D15), line, external, WaveGen (1, 2, or Mod (FM/FSK))
Requires trigger event for oscilloscope to trigger
Triggers automatically but not synchronized to the input in absence of trigger event
Front panel button that triggers only once on a trigger event. Press Single button again for
oscilloscope to find another trigger event, or press Run front panel button to trigger continuously in
either Auto or Normal mode
Front panel button forces a synchronous trigger
DC-coupled trigger
AC-coupled trigger, cutoff frequency: < 10 Hz (internal); < 50 Hz (external)
High-frequency reject, cutoff frequency ~ 50 kHz
Low-frequency reject, cutoff frequency ~ 50 kHz
Adds hysteresis to the trigger circuitry; selectable OFF or ON, decreases sensitivity 2x
40 ns to 10.00 s
35 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Trigger system
Trigger jitter
Trigger bandwidth
Trigger sensitivity
(internal) 1
Edge
Other modes
1 GHz bandwidth
2.5, 4, and 6 GHz
bandwidth
Trigger sensitivity
(external) 1
Trigger level range
1.
± 1.6 V
±8V
Any channel
External
Denotes warranted specifications; All others are typical. Specifications are valid after a 30-minute warm-up period and ± 10 °C from firmware calibration
temperature.
Trigger type selections
InfiniiScan Zone (hardware zone qualifier)
Edge
Edge then edge (B trigger)
Pulse width
Pattern
Or
< 1.0-ps rms with the jitter-free trigger
< 3.0-ps rms without the jitter-free trigger
500 MHz, 1 GHz, 2.5 GHz models: bandwidth of oscilloscope. 4-GHz and 6-GHz models: 3.5 GHz
Bandwidth of oscilloscope or 1 GHz, whichever is smaller
≤ 10 mV/div
DC to 1 GHz
Greater of 1 div or 5 mVpp
> 10 mV/div
DC to 1 GHz
0.6 div
≤ 10 mV/div
DC to 2 GHz
Greater of 1 div or 5 mVpp
2.0 to 3.5 GHz
Greater of 1.5 div or 5 mVpp
> 10 mV/div
DC to 2 GHz
0.6 div
2.0 to 3.5 GHz
1.0 div
40 mVpp DC to 100 MHz, 70 mVpp 100 to 200 MHz
200 mVpp DC to 100 MHz, 350 mVpp 100 to 200 MHz
± 6 div from center screen
8-V range = ± 8 V; 1.6-V range = ± 1.6 V
Trigger on user-defined zones drawn on the display. Applies to one analog channel at a time.
Specify zones as either “must intersect” or “must not intersect.” Up to two zones. > 160,000 wfm/
sec update rate
Supported modes: Normal, peak detect, high resolution, max update rate
Also works simultaneously with the serial decodes and mask/limit test
Trigger on a rising and falling edge of any source, alternating or either edge of analog and digital
channels
Arm on a selected edge, wait a specified time, then trigger on a specified count of another selected
edge. Minimum 4 ns
Trigger on a pulse on a selected channel, whose time duration is less than a value, greater than a
value, or inside a time range
–– Minimum duration setting: 2 ns
–– Maximum duration setting: 10 s
–– Range minimum: 10 ns
Trigger when a specified pattern of high, low, and don’t-care levels on any combination of analog,
digital, or trigger channels is [entered | exited]. Pattern must have stabilized for a minimum of 2 ns to
qualify as a valid trigger condition
–– Minimum duration setting: 2 ns
–– Maximum duration setting: 10 s
Trigger on any selected edges from available sources (analog and digital channels only).
Bandwidth is 500 MHz
36 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Trigger type selections (Continued)
Rise/fall time
Nth edge burst
Runt
Setup and hold
Video
Enhanced video (HDTV) (Option)
ARINC429 (Option)
CAN (Option)
FlexRay (Option)
I²C (Option)
I²S (Option)
LIN (Option)
MIL-STD1553 (Option)
SPI (Option)
UART/RS232/422/485 (Option)
USB (Option)
SENT (Option)
User-definable Manchester/NRZ
(Option)
CXPI (Option)
USB PD (Option)
1.
Trigger on rise time or fall time edge speed violations (< or >) based on user-selectable threshold. Select from
(< or >) and time settings range between
–– Minimum: 1 ns
–– Maximum: 10 s
Trigger on the nth (1 to 65535) edge of a pulse burst. Specify idle time (10 ns to 10 s) for framing
Trigger on a position runt pulse that fails to exceed a high-level threshold. Trigger on a negative runt pulse that
fails to drop below a low-level threshold. Trigger on either polarity runt pulse based on two threshold settings.
Runt triggering can also be time-qualified (< or >) with a minimum time setting of 2 ns
Trigger on setup/hold violations. Setup time can be set from –7 s to 10 s. Hold time can be set from 0 s to 10 ns.
Minimum window (setup time + hold time) must be 3 ns or greater
Trigger on all lines or individual lines, odd/even or all fields from composite video, or broadcast standards
(NTSC, PAL, SECAM, PAM-M)
Trigger on lines and fields of enhanced and HDTV standards (480p/60, 567p/50, 720p/50, 720p/60, 1080p/24,
1080p/25, 1080p/30, 1080p/50, 1080p/60, 1080i/50, 1080i/60)
Trigger and decode on ARINC429 data. Trigger on word start/stop, label, label + bits, label range, error
conditions (parity, word, gap, word or gap, all), all bits (eye), all 0 bits, all 1 bits
Trigger on CAN (controller area network) version 2.0A,2.0B, and CAN-FD (Flexible Data-rate) signals. Trigger on
the start of frame (SOF), the end of frame (EOF), data frame ID, data frame ID and data (non-FD), data frame ID
and data (FD), remote frame ID, remote or data frame ID, error frame, acknowledge error, from error, stuff error,
CRC error, spec error (ack or form or stuff or CRC), all errors, BRS Bit (FD), CRC delimiter bit (FD), ESI bit active
(FD), ESI bit passive (FD), overload frame., message, message and signal (non-FD), message and signal (FD, first
8 bytes only)
Trigger on frame ID or specific error condition, along with cycle-base and repetition-cycle filtering. Can also
trigger on specific events such as BSS, TSS, FES, and wake up
Trigger at a start/stop condition or user-defined frame with address and/or data values. Also trigger on missing
acknowledge, address with no acq, restart, EEPROM read, and 10-bit write
Trigger on 2’s complement data of audio left channel or right channel (=, ≠, <, >, > <, < >, increasing value, or
decreasing value)
Trigger on LIN (Local Interconnect Network) sync break, sync frame ID, frame ID and data , parity error, or
checksum error
Trigger on MIL-STD 1553 signals on data word start/stop, command/status start/stop, RTA, RTA + 11 bits, and
error conditions (parity, sync, Manchester)
Trigger on SPI (Serial Peripheral Interface) data pattern during a specific framing period. Supports positive
and negative Chip Select framing as well as clock Idle framing and user-specified number of bits per frame.
Supports MOSI and MISO data
Trigger on Rx or Tx start bit, stop bit, data content, or parity error
Trigger on start of packet (SOP), end of packet (EOP), suspend***, resume***, reset***, packets (token, data,
handshake, or special), and errors (PID, CRC5, CRC16, glitch, bit stuff***, SE1***). Supports USB 2.0 lowspeed, full- speed, and hi-speed implementations. (Hi-speed is supported on ≥ 1-GHz models only)
Trigger and decode on SENT bus. start of fast channel message, start of slow channel message, fast channel SC
and data, slow channel message ID, slow channel message ID and data, tolerance violation, fast channel CRC
error, slow channel CRC error, all CRC errors, pulse period error, successive sync pulses error (1/64)
Trigger on start of frame (SOF), bus value, and Manchester errors
Trigger on the start of frame (SOF), the end of frame (EOF), PTYPE, frame ID, data and info frame ID, data and
info frame ID (long frame), CRC field error, parity error, inter-byte space error, inter-frame space error, framing
error, data length error, sample error, all errors, sleep frame, wakeup pulse
Trigger on preamble, EDP, ordered sets, preamble errors, CRC errors, header content (control messages, data
messages, extended messages and value in HEX)
Suspend, resume, reset, bit stuff error, and SE1 error are USB 2.0 low- and full-speed only.
37 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Search, navigate, and lister
Type
Copy
Frequency peak
Source
Max number of peaks
Control
Result display
Waveform measurements
DC vertical accuracy/cursors 2
Number of measurements
Cursors
Automatic
measurements
Snapshot
Voltage/current
Time
Count
Mixed
Jitter
Real-time eye
Dual-channel (requires
N2820A probe)
Automatic
measurement logging
Counter
Source
Resolution
Max frequency
1.
2.
Edge, pulse width, rise/fall, runt, frequency peak, serial bus 1, serial bus 2
Copy to trigger, copy from trigger
Math functions
11
Threshold, excursion, results order (frequency or amplitude)
Event lister or navigation. Manual or autoscroll via navigation or touch event lister entry to jump to a
specific event
Single cursor accuracy: ± [DC vertical gain accuracy + DC vertical offset accuracy + 0.21% full scale]
Dual cursor accuracy: ± [DC vertical gain accuracy + 0.42% full scale] 1
56 automatic measurements, maximum of 10 displayed at a time
2 pairs of XY cursors
Automatic measurement of positions, ΔX, 1/ΔX, ΔY, and ΔY/ΔX
Measurements continuously updated with statistics. Cursors track last selected measurement.
Select up to 10 measurements from the list below:
Makes a snapshot of 31 most popular measurements. Touchable target to populate the
measurement side bar
Peak-to-peak, maximum, minimum, amplitude, top, base, overshoot, preshoot, average- N cycles,
average-full screen, DC RMS-N cycles, DC RMS-full screen, AC RMS-N cycles, AC RMS-full screen
(standard deviation), ratio-N cycles, ratio-full screen
Period, frequency, counter, + width, - width, burst width, + duty cycle, - duty cycle, bit rate, rise
time, fall time, delay, phase, X at min Y, X at max Y
Positive pulse count, negative pulse count, rising edge count, falling edge count
Area-N cycles, area-full screen
Option DSOX6JITTER required
Data TIE, clock TIE, N-period, period-period, + width to + width, - width to - width
Option DSOX6JITTER required
Eye width, eye height
Charge-N cycles, charge-full screen, peak-peak, amplitude, DC RMS-N cycles, DC RMS-full screen,
AC RMS- N cycles, AC RMS-full screen (standard deviation), average-N cycles, average-full screen,
base
Available via BV0004B BenchVue
Built-in frequency counter (see “Precision counter/totalizer section” for the 10-digit counter)
Any analog and digital channel
5 digits
1 GHz (1.2 GHz typical)
Denotes warranted specifications; All others are typical. Specifications are valid after a 30-minute warm-up period and ± 10 °C from firmware calibration
temperature.
1 mV/div is a magnification of 2 mV/div setting. For vertical accuracy calculations, use full scale of 16 mV for 1 mV/div sensitivity setting.
38 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Waveform math
Number of math functions
Arithmetic
Enhanced FFT
Record size
Window types
Display
Waveforms
Peak search
Waveform analysis
Mask/limit test (Option)
Histogram
Source
Types
Measurements
Modes
Color grade
Source
Color themes
Modes
Jitter (Option)
Jitter measurement
floor
Source
Clock recovery
Real-time eye (Option)
Source
Clock recovery
Color mode
Measurements
Precision mode
Four, displays all four simultaneously. Can be cascaded
Add, subtract, multiply, divide, differentiate, integrate, FFT, Ax + B, squared, square root, absolute
value, common logarithm, natural logarithm, exponential, base 10 exponential, low-pass filter,
high-pass filter, averaged value, magnify, max hold, min hold, measurement trend, chart logic bus
(timing or state), clock recovery
Up to 1-Mpts resolution via precision mode
Hanning, flat top, rectangular, Blackman-Harris, Bartlett
Color grade or monochrome
FFT, max hold, min hold, average
Max 11 peaks, threshold and excursion control
Standard mask/limit test capability provides pass/fail comparison of a signal under test to a
predefined mask template or automask template. Predefined mask templates or edits to an automask
template can be made via a text editor. > 130,000 mask tests per second (waveform update rate)
Provides a statistical view of a waveform or a measurement
Any analog channels, math functions, reference waveforms, measurements
Horizontal, vertical, or measurement
Hits, peak, max, min, peak to peak, mean, median, mode, bin width, standard deviation, 1~3 sigma
All modes supported except zoom, ZY, and roll
Provides a 3-dimensional view of waveform intensity
Any analog channels, math functions, reference waveforms, real-time eye
Temperature and intensity
All modes supported except zoom, ZY, and roll
Measures the variance of a measurement over time
600 fs rms at 6 GHz sine wave (typical)
Any analog channels, math functions, and reference waveforms
Constant frequency, first-order phase lock loop (PLL), second-order PLL, explicit
Data rate: Fully automatic, semi-automatic, manual
Provides the color graded eye pattern analysis based on the recovered clock. Data bits are folded on
top of each other per clock cycle to give a 3-dimensional view
Any analog channels, math functions, and reference waveforms
Constant frequency, first-order phase lock loop (PLL), second-order PLL, explicit
Data rate: Fully automatic, semi-automatic, manual
Color grade
Eye height, eye width
Increase the analysis record length. Minimum: 100 kpts; maximum 1 Mpts
39 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Precision counter/totalizer (Specifications are typical) (option)
Counter
Source
Any analog channel or trigger qualified event
Resolution
10 digits (8 digits for trigger qualified event)
Max frequency
Up to 3.2 GHz (4 GHz typical). With Hi-speed USB 2.0 decoding, 1 GHz (1.2 GHz typical)
Trig-qual events
1/(trigger holdoff time) for trigger qualified events (max 25 MHz, minimum dead time of 40 ns)
Measurement
Frequency, period, totalize
Totalizer
Counter size
64-bit totalizing counter
Edge
Rise or fall
Gating
Positive or negative level. Select from analog channels except the source
Time reference
Internal or external 10 MHz reference clock
Integrated digital voltmeter (Specification are typical) (option)
Source
Analog channels only (1 ~ 4)
Functions
ACrms, DC, DCrms, frequency
Resolution
ACV/DCV: 3 digits
Counter frequency: 5.5 digits
Measuring rate
100 times/second
Auto ranging
Automatic adjustment of vertical amplification to maximize the dynamic range of measurements
Range meter
Graphical display of most recent measurement, plus extreme over the previous 3 seconds
Dual-channel WaveGen — built-in function/arbitrary waveform generator (Specification are typical) (Option)
WaveGen outputs/
Two (front-panel BNC connectors)
Output modes
Both waveform generator outputs can be frequency tracked, amplitude tracked, or completely tracked. Phase adjustable. 1
A generator’s output can be inverted to create a differential signal
Output modes: Normal (continuous) or single-shot (limited to arbitrary, sine, ramp, sine cardinal, exp rise/fall, cardiac,
Gaussian pulse)
Waveforms
Sine, square, ramp, pulse, DC, noise, sine cardinal (sinc), exponential rise, exponential fall, cardiac, Gaussian pulse, and
arbitrary
Modulation
Modulation is available on channel 1 only. Modulation is not available when tracking mode is enabled
Modulation types: AM, FM, FSK
Carrier waveforms: sine, ramp, sine cardinal, exponential rise, exponential fall, and Cardiac.C176
Modulation source: Internal (no external modulation capability)
AM:
Modulation: Sine, square, ramp
Modulation frequency: 1 Hz to 20 kHz
Depth: 0 to 100%
FM:
Modulation: Sine, square, ramp
Modulation frequency: 1 Hz to 20 kHz
Minimum carrier frequency: 10 Hz
Deviation: 1 Hz to carrier frequency or (2e12/carrier frequency), whichever is smaller
FSK:
Modulation: 50% duty cycle square wave
FSK rate: 1 Hz to 20 kHz|
Hop frequency: 2x FSK rate to 10 MHz
1.
Only the following combination of wave shapes can be frequency tracked or completely tracked:
a. Sine, ramp, sine cardinal, cardiac, and Gaussian pulse.
b. Square wave, and pulse.
c. Exponential rise and exponential fall.
d. Arbitrary.
40 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Dual-channel WaveGen — built-in function/arbitrary waveform generator (Specification are typical) (Continued)
Sine
Frequency range
0.1 Hz to 20 MHz
Amplitude flatness
± 0.5 dB (relative to 1 kHz)
Harmonic distortion
–40 dBc
Spurious (nonharmonics)
–40 dBc
Total harmonic distortion
1%
SNR (50 Ω load, 500 MHz BW)
40 dB (Vpp ≥ 0.1 V); 30 dB (Vpp < 0.1V)
Square wave/pulse
Frequency range
0.1 Hz to 10 MHz
Duty cycle
20 to 80%
Duty cycle resolution
Larger of 1% or 10 ns
Rise/fall time
19 ns (10 to 90%)
Overshoot
< 2%
Asymmetry (at 50% DC)
± 1% ± 5 ns
Jitter (TIE RMS)
500 ps
Ramp/triangle wave
Frequency range
0.1 Hz to 200 kHz
Linearity
1%
Variable symmetry
0 to 100%
Symmetry resolution
1%
Pulse
Frequency range
0.1 Hz to 10 MHz
Pulse width
20 ns minimum
Pulse with resolution
10 ns
Edge time
Fixed at 19 ns (not variable)
Overshoot
< 2%
Noise
Bandwidth
20 MHz typical
Sine cardinal (sinc)
Frequency range
0.1 Hz to 1.0 MHz
Exponential rise/fall
Frequency range
0.1 Hz to 5.0 MHz
Cardiac
Frequency range
0.1 Hz to 200.0 kHz
Gaussian pulse
Frequency range
0.1 Hz to 5.0 MHz
Arbitrary
Waveform length
1 to 8,192 points
Amplitude resolution
10 bits (including sign bit) 1
Repetition rate
0.1 Hz to 12 MHz
Sample rate
100 MSa/s
Filter bandwidth
20 MHz
Frequency
Sine wave and ramp accuracy
130 ppm (frequency < 10 kHz)
50 ppm (frequency > 10 kHz)
Square wave and pulse accuracy
[50 + frequency/200] ppm (frequency < 25 kHz)
50 ppm (frequency ≥ 25 kHz)
Resolution
0.1 Hz or 4 digits, whichever is larger
1.
Full resolution is not available at output due to internal attenuator stepping.
41 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Dual-channel WaveGen — built-in function/arbitrary waveform generator (Specification are typical) (Continued)
Amplitude
Range: Minimum
20 mVpp if |offset| ≤ 0.5 Vpp into Hi-Z 1
10 mVpp if |offset| ≤ 0.5 Vpp into 50 Ω 1
Range: Maximum
10 Vpp except, 9 Vpp if sinc or cardiac, 7.5 Vpp if Gaussian pulse into Hi-Z;
5 Vpp/4.5 Vpp into 50 Ω
Resolution
100 μV or 3 digits, whichever is higher
Accuracy
1.5% (frequency = 1 kHz)
DC offset
Range
± 5 V into Hi-Z, except ± 4 V if sine wave, ± 2.5 V if sinc, cardiac, or Gaussian
pulse into Hi-Z
± 2.5 V into Hi-Z, except ± 2 V if sine wave, ± 1.25 V if sinc, cardiac, or
Gaussian pulse into 50 Ω
Resolution
Larger of 250 uV or 3 digits
Accuracy (waveform modes)
± 1.5% of offset setting ± 1% of amplitude ± 1 mV
Accuracy (DC mode)
± 1.5% of offset setting ± 3 mV
Main output
Impedance
50 Ω typical
Isolation
Not available, main output BNC is grounded
Protection
Overload automatically disables output
Trigger output
Trigger output available on trig-out BNC
Quick action customization key
Quick measure all
Quick measure statistics reset
Quick mask statistics reset
Quick histogram statistics reset
Quick print
Quick save
Quick email
Quick recall
Quick freeze display
Quick trigger mode
Quick clear display
Display characteristics
Display
Display mode
Resolution
Graticules
Format
Maximum waveform update rate
Persistence
Intensity gradation
1.
Displays a popup containing a snapshot of all the single waveform measurements
Resets all measurement statistics and the measurement count
Resets mask statistics and counters
Zeros the histogram counters
Print the current screen image
Saves the current setup, screen image, or data file as specified in the settings menu
Emails the current setup, screen image, or data file as specified in the settings menu
Recalls setup, mask, or reference waveform
Freezes the display without stopping running acquisitions or unfreezes the display if currently frozen.
Waveform intensity preserved
Toggles the trigger mode between auto and normal
Clears the display
12.1-inch capacitive multi-touch/gesture enabled color TFT LCD
Zone/zoom/annotation mode and waveform placement mode
800 (H) x 600 (V) pixel format (screen area)
8 vertical divisions by 10 horizontal divisions with intensity controls
YT and XY
> 135,000 wfm/s (real time)
> 450,000 wfm/s (real time max update rate)
Off, infinite, variable persistence (100 ms to 60 s)
256 intensity levels
Sinc, cardiac and Gaussian pulse: ± 1.25 V into Hi-Z; ± 625 mV into 50 Ω.
42 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Connectivity
USB 2.0 hi-speed host port
USB 2.0 hi-speed device port
LAN port
Web remote control
Video-out port
GPIB port
10-MHz reference
Trigger out
USB 2.0 hi-speed host ports x3, two front and one real panel. Supports memory devices, printers, keyboards, mice,
and USB microphones
One USB 2.0 hi-speed device port on rear panel. USB Test and Measurement Class (USBTMC) compatible
10/100/1000 Base-T port on rear panel. LXI IPv6 extended function
VNC Web interface (via major Web browsers)
VGA out on rear panel. Connect oscilloscope display to an external monitor or projector
N4865A GPIB-to-LAN adapter (option)
BNC connector on the rear panel
Support mode
Output and input off, output on (10-MHz out) input on (10-MHz in)
In mode
50 Ω, 356 mVpp to 4.48 Vpp (–5 dBm to 17 dBm), 6.32-Vpp max (20-dBm max)
Recommended input signal accuracy: better than ± 10 ppm
Out mode
50 Ω, 1.65 Vpp square wave
BNC connector on the rear panel. Supported modes: triggers, mask, waveform generator 1 sync pulse, and waveform
generator 2 sync pulse
General and environmental characteristics
Power line consumption
Power voltage range
Temperature
Operating
Non-operating
Humidity
Operating
Non-operating
Altitude
Operating
Non-operating
Electromagnetic compatibility
Safety
Vibration
Shock
Mean Time Before Failure (MTBF)
Dimensions
Weight
Maximum 200 W
100-120 V, 50/60/400 Hz; 100-240 V, 50/60 Hz ± 10% auto ranging
0 to +50 °C
–40 to +70 °C
90% RH (non-condensing) at 40 °C
90% RH (non-condensing) at 65 °C
Up to 4,000 m (15,000 ft.)
Up to 15,300 m (50,000 ft.)
Meets EMC Directive (2004/108/EC), meets or exceeds IEC 61326-1:2005/EN
61326-1:2006 Group 1 Class A requirement
CISPR 11/EN 55011
IEC 61000-4-2/EN 61000-4-2
IEC 61000-4-3/EN 61000-4-3
IEC 61000-4-4/EN 61000-4-4
IEC 61000-4-5/EN 61000-4-5
IEC 61000-4-6/EN 61000-4-6
IEC 61000-4-11/EN 61000-4-11
Canada: ICES-001:2004
Australia/New Zealand: AS/NZS
UL61010-1 3rd edition, CAN/CSA_22.2 No. 61010-1-12, IEC61010-1 3rd edition
Meets IEC60068-2-6 and MIL-PRF-28800; class 3 random
Meets IEC 60068-2-27 and MIL-PRF-28800; class 3 random; (operating 30 g, ½ sine,
11-ms duration, 3 shocks/axis along major axis, total of 18 shocks)
> 120,000 hours
425 mm W x 288 mm H x 148 mm D
Net: 6.8 kg (15 lbs.), Shipping: 11.3 kg (25 lbs.)
43 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
Performance Characteristics (Continued)
Non-volatile storage
Reference waveform display
Data/file save
Setup/image
Waveform data
Application data
Analysis results (*.csv)
Max USB flash drive size
Set ups without USB flash drive
Set ups with USB flash drive
Included standard with oscilloscope
Calibration
Probe
Interface language support/built-in help
Voice control support
Power cord
Front-panel protection
Documentation
Four internal waveforms or USB thumb drive. Displays up to 4 reference waveforms simultaneously
Setup (*.scp), 8 or 24-bit bitmap image (*.bmp), PNG 24-bit image (*.png)
CSV data (*.csv), ASCII XY data (*.csv), binary data (*.bin), lister data (*.csv), reference waveform
data (*.h5), multichannel waveform data (*.h5), arbitrary waveform data (*.csv)
Mask (*.msk), power harmonics data (*.csv), USB signal quality (*.html and *.bmp)
Cursor data, measurement results, histogram statistics, mask test statistics, color grade bin,
search, segmented timestamps
Supports industry standard flash drives
10 internal setups
Limited by size of USB drive
Certificate of calibration, 2-year calibration interval
One per channel, N2894A 700-MHz passive probe (10:1 attenuation)
N2756A 16-digital-channel MSO cable (1 per oscilloscope included on all MSO models and
DSOX6MSO upgrade option)
English, Chinese (simplified and traditional), French, German, Italian, Japanese, Korean, Portuguese,
Russian, and Spanish localized front-panel overlays, interface, and built-in help system
English (American), English (British), English (Indian), Chinese Simplified (Mainland), Chinese
Simplified (Cantonese), Chinese Traditional (Taiwan), Chinese Traditional (Cantonese), French, German,
Italian, Japanese, Korean, Portuguese, Russian, Spanish (Latin America) and Spanish (Castilian)
Localized power cord
Front-panel cover
CD containing localized user’s guide, service guide, and programmer’s manual
Related literature
Publication title
Jitter Analysis - Application Note
Automotive Serial Bus Testing Using Keysight’s InfiniiVision X-Series and Infiniium S-Series Oscilloscopes - Application Note
Physical Layer Testing of the USB 2.0 Serial Bus Using InfiniiVision 6000 X-Series and Infiniium Series Oscilloscopes Application Note
Evaluating Oscilloscopes for Low-Power Measurements - Application Note
InfiniiVision and Infiniium Oscilloscopes - Product Fact Sheet
Evaluating Current Probe Technologies for Low-Power Measurements - Application Note
Publication number
5991-4000EN
5991-4038EN
5991-4167EN
5991-4268EN
5991-4273EN
5991-4375EN
44 | Keysight | InfiniiVision 6000 X-Series Oscilloscopes - Data Sheet
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Published in USA, November 7, 2017
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