Brand : Lecroy
Serie : Wavesurfer XS, WaveSurferxs, MSO
Manufacturer Ref. : WS24Xs-MSO
Order Ref. : WaveSurfer 24Xs.MS-250
Weight : 10 kg
Lecroy WaveSurfer Xs + MS-series logic analyzer module
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WaveSurfer
24Xs |
WaveSurfer
44Xs |
WaveSurfer
42Xs |
WaveSurfer
64Xs |
WaveSurfer
62Xs |
WaveSurfer
104Xs |
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Bandwidth (@ 50Ω) |
200 MHz |
400 MHz |
600 MHz |
1 GHz |
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Rise Time |
1.75 ns |
875 ps |
625 ps |
400 ps |
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Input Channels |
4 |
2 |
4 |
2 |
4 |
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Display |
10.4" Color flat-panel TFT-LCD, 800 x 600 SVGA, touch screen |
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Sample Rate (single-shot) |
2.5 GS/s (all channels) |
2.5 GS/s (5 GS/s interleaved) |
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Sample Rate (RIS mode) |
50 GS/s |
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Standard Record Length |
2.5 Mpts/Ch (all channels) |
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Standard Capture Time |
up to 1 ms at full sample rate |
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Vertical Resolution |
8 bits |
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Vertical Sensitivity (V/div) |
2 mV/div–10 V/div (1 MΩ); 2 mV/div–1 V/div (50 Ω) |
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Vertical (DC Gain) Accuracy |
±1.0% of full scale (typical); ±1.5% of full scale ≥ 10 mV/div (warranted) |
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Vertical Offset Range |
±1 V (2–50 mV/div), ±10V (100 mV–1 V/div), ±100 V (2–10 V/div) |
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BW Limit |
20 MHz |
20 MHz, 200 MHz |
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Maximum Input Voltage |
CAT I: 400 V max. (DC + Peak AC ≤ 5 kHz) with 1 MΩ input. 5 Vrms with 50 Ω input |
50 Ω:5 VRms 1 MΩ: 250 V max (Peak AC: ≤ 10 KHz + DC) |
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Input Coupling |
AC, DC, GND (DC and GND for 50 Ω) |
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Input Impedance |
1 MΩ || 16 pF, or 50 Ω ±1%, |
1 MΩ || 20 pF, or 50 Ω |
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Probing System |
BNC or ProBus |
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Probes |
One PP009 (5 mm) per channel standard |
One PP007 (5 mm) per channel (standard) |
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Time Base Range |
200 ps/div–1000 s/div |
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Time Base Accuracy |
10 ppm |
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Trigger Modes |
Normal, Auto, Single, and Stop |
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Trigger Sources |
Any input channel, External, Ext/10, or line; slope and level unique to each source (except for line trigger)
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Trigger Coupling |
DC, AC, HFRej, LFRej |
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Pre-trigger Delay |
0–100% of full scale |
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Post-trigger Delay |
0–10,000 divisions |
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Trigger Hold-off |
1 ns to 20 s or 1 to 1,000,000,000 events |
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Internal Trigger Level Range |
±4.1 div from center |
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External Trigger Range |
EXT/10 ±4V; EXT ±400 mV |
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Standard Triggers |
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Edge |
Triggers when signal meets slope (positive, negative, or Window) and level condition |
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Glitch
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Triggers on positive or negative glitches with widths selectable from 500 ps to 20 s or on intermittent
faults. Includes exclusion mode (trigger on intermittent faults by specifying the nominal width period). |
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Width
|
Triggers on positive or negative pulse widths selectable from 500 ps to 20 s or on intermittent faults.
Includes exclusion mode (trigger on intermittent faults by specifying the nominal width period). |
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Logic (Pattern)
|
Logic combination (AND, NAND, OR, NOR) of 5 inputs (4 channels and external trigger input).
Each source can be high, low, or don’t care. The High and Low level can be selected independently. |
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TV-Composite Video
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Triggers selectable fields (1, 2, 4, or 8), Positive or Negative slope, for NTSC, PAL, SECAM,
or non-standard video (up to 1500 lines) |
MS series
The Ultimate Mixed Signal Oscilloscope
A mixed signal oscilloscope (MSO) is the ideal tool for the design
and debug of today’s embedded systems providing the only way
to see analog, digital and serial data signals simultaneously on
one instrument as they occur in real time. Embedded system
designers need to view signals into and out of devices such as
microcontrollers, DSPs, FPGAs,ADCs, DACs, and transducers
while ensuring proper timing and bus traffic. Unmatched Digital Performance
The MS Series offers unmatched digital
performance and is available in two
models, the MS-500 and MS-250.
Designed to capture long records of
the fastest digital signals the MS-500
has a maximum input frequency of
500 MHz, while other MSOs are
limited to only 250 MHz. The long
memory of 50 Mpts/Ch means that
these fast signals can be captured for
up to 25 ms at up to 2 GS/s sampling
rate. On top of this raw performance,
the MS-500 supports up to 36 channels
—enough for all the ADDR, DATA,
control lines and serial data busses.
This makes it the perfect tool for
embedded systems with 16-bit or
32-bit microcontrollers.
The MS-250 is the ideal tool for testing
embedded systems with 8 bit microcontrollers
or slower digital signals.
With 250 MHz max input frequency,
18 channels and 10 Mpts/Ch memory
the MS-250 is an outstanding value
and provides a complete set of tools
for embedded system testing. Analog Performance Reimagined
A great MSO must be built on a great
oscilloscope and the WaveRunner® Xi
and WaveSurfer® Xs are two of the best.
With bandwidths from 200 MHz to
2 GHz, sampling rates up to 10 GS/s,
12.5 Mpts/Ch available memory, and a
wide range of math, measurement and
triggering capabilities the WaveRunner Xi
and WaveSurfer Xs platforms are powerful
and versatile. Both models feature a
big, bright 10.4" color touch screen for
easy viewing of all your analog and digital
signals and both are only 6" deep. The Best Serial Data BusTesting
Monitoring serial data busses is a
major part of embedded system
design and test. The ability to
quickly locate and isolate
specific messages on
these busses is important
for efficient testing.
With LeCroy’s unique colorcoded
overlay for decoded bus
data and powerful, flexible conditional
triggering, the MS Series
captures all important bus traffic in
your system and easily shows important
data messages from I2C, SPI,
UART, RS-232, CAN, and LIN busses. Analog, Digital and Cross-Pattern Triggering
The WaveRunner Xi and WaveSurfer Xs
oscilloscopes come with an extensive
set of triggering capabilities aimed at
capturing a wide range of analog signals.
With the MS Series this triggering is
enhanced, adding analog/digital crosspattern
trigger, analog/digital event
triggering and the capability to select
any digital channel as the source for
an analog trigger.
Easy-to-Use Measurement Tools
Cursors and measurement parameters
are an important part of any oscilloscope.
When using the MS Series
these tools measure digital channels
as well analog channels. Cursors read out hexadecimal bus values
while parameters make timing measurements
on a single digital channel,
between two digital channels or even
between an analog and a digital channel. Complete I2C, SPI, UART, RS-232, LIN, and CAN Serial Triggering
Quickly and easily isolate specific
serial data events on your embedded
controller for better understanding and
faster debug. Set up trigger conditions
in binary, hexadecimal (Symbolic for
CAN) formats. Use the MS-500 or
MS-250 to capture serial data busses
keeping the analog oscilloscope channels
open for other uses. Trigger on
DATA in specific locations of long I2C
EEPROM reads. Get complete control
of your debug process and finish faster.
Powerful Conditional Data Triggering
Completely isolate specific message
events for better understanding and
debug. Use a conditional I2C, UART,
RS-232, or LIN DATA trigger to select a
range of DATA values to trigger on, not
just a single DATA value. Oftentimes,
I2C utilizes DATA bytes to specify
sub-addresses for accessing memory
locations in EEPROMs. Conditional
DATA trigger allows triggering on a
range of DATA bytes that correspond
to reads or writes to specific subaddress
memory blocks in the
EEPROM. Conditional DATA triggering
can also aid in monitoring DATA
outputs from sensors, such as analogto-
digital converters, and triggering
when DATA is outside a safe operating
range. In both cases, verifying proper
operation becomes a simple task. Intuitive, Color-Coded Decode Overlay
Advanced software algorithms deconstruct
the waveform into binary, hex, or
ASCII protocol information, then overlay
the decoded data on the waveform.
Various sections of the protocol are
color-coded to make it easy to understand.
The decode operation is fast—
even with long acquisitions. Table Summary and Search/Zoom
Turn your oscilloscope into a protocol
analyzer with the Table display of protocol
information. Customize the table, or
export Table data to an Excel file. Touch
a message in the table and automatically
zoom in for detail. Search for specific
address or data values in the acquisition.
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