The OMSP-2000 Series has been discontinued. Please see the HOS-MS6200 Series or the BOS Series as
possible alternatives or contact our Data Acquisition Engineering Department.
These handy, economical oscilloscopes have all the power you
need for your application, whether it’s design, research, test, education,
service or repair. They are available with bandwidths from 10 to 25 MHz.
OMSP-2000 Series oscilloscopes are small, light and portable. They easily
slip into a laptop bag and so are ideal for the engineer on the move. They
don’t need an external power supply, so they are perfect for field use. The
connection to your PC means that functions such as printing, copying and
email are always at your fingertips.
Digital Triggering
Most digital oscilloscopes sold today still use an analog trigger architecture
based on comparators. This can cause time and amplitude errors that
cannot always be calibrated out. The use of comparators often limits the
trigger sensitivity at high bandwidths and can also create a long trigger
re-arm delay. OMSP-2000 Series oscilloscopes use full digital triggering using
the actual digitized data. This reduces trigger errors and allows
our oscilloscopes to trigger on the smallest signals, even at the
full bandwidth. Trigger levels and hysteresis can be set with great
precision and resolution.The reduced re-arm delay provided by digital
triggering, together with segmented memory, allows the capture of events
that happen in rapid sequence. At the fastest timebase, rapid
triggering can capture a new waveform every 2 microseconds until the buffer
is full. The mask limit testing feature (see next page) helps to
detect waveforms that fail to meet your specifications.
Advanced Triggers
As well as the standard range of triggers found on all oscilloscopes,
the OMSP-2000 Series offers one of the best selections of advanced
triggers available, including pulse width, windowed and dropout triggers
to help you find your signal quickly.
Custom Probe Settings
The custom probes feature allows you to correct for gain, attenuation,
offsets and nonlinearities in special probes, or to convert to different units
of measurement (such as current, power or temperature). You can
save definitions to disk for later use. Definitions for standard supplied
oscilloscope probes and current clamps are built in.
Arbitrary Waveform and Function Generator
All units have a built-in function generator with sine, square, triangle,
DC level and many more standard waveforms. As well as level, offset
and frequency controls, more advanced options allow you to
sweep over a range of frequencies. Combined with the spectrum peak
hold option, this creates a powerful tool for testing amplifier and filter
responses. The OMSP-2000 Series scopes also include a full arbitrary
waveform generator. Waveforms can be created or edited using the
built-in AWG editor, imported from oscilloscope traces, or loaded from
a spreadsheet.
Spectrum Analyzer
With the click of a button, you can display a spectrum plot of selected
channels. The spectrum analyzer allows signals up to the full scope
bandwidth to be viewed in the frequency domain. A full range
of settings gives you control over the number of spectrum bands,
window types and display modes: instantaneous, average, or peakhold.
The OMEGASCOPETM software allows you to display multiple
spectrum views with different channel selections and zoom factors, and
see these alongside time-domain waveforms of the same data. A
comprehensive set of automatic frequency-domain measurements,
including THD, THD+N, SNR, SINAD and IMD, can be added to the display.
Math Channels
The OMSP-2000 Series oscilloscopes offer a full range of
math functions for processing and combining channels. The functions
can also operate on reference waveforms. Use the built-in list for
simple functions such as addition and inversion, or open the equation
editor and create complex functions involving trigonometry, exponentials,
logarithms, statistics, integrals and derivatives.
Advanced Display Modes
See old and new data superimposed, with new data in a brighter color
or shade. This makes it easy to see glitches and dropouts and to
estimate their relative frequency. Choose between analog persistence
and digital color, or create a custom display mode. The design of the
OMEGASCOPE software ensures that maximum display area is
available for waveform viewing. Even with a laptop you have a much bigger
viewing area and higher resolution than a typical benchtop scope.
Serial Decoding
The OMSP-2000 Series includes serial decoding capability as
standard. Protocols currently included are I²C, SPI, RS232/UART
and CAN bus. Expect this list to grow as we release free software
updates. OMEGASCOPE displays the decoded data in the format of
your choice: “in view”, “in window”, or both at once. The “in view” format
shows the decoded data beneath the waveform on a common time
axis, with error frames marked in red. You can zoom in on these frames
to look for noise or distortion on the waveform. “In window” format shows
a list of the decoded frames, including the data and all flags and identifiers.
You can set up filtering conditions to display only the frames you are
interested in, search for frames with specified properties, or define a start
pattern that the program will wait for before listing the data. You can also
create a spreadsheet to decode the hexadecimal data into arbitrary
text strings.
Mask Limit Testing
This feature is specially designed for production and debugging
environments. Capture a signal from a known working system, and the
OMEGASCOPE software will draw a mask around it with your specified
tolerance. Connect the system under test, and OMEGASCOPE will highlight
any parts of the waveform that fall outside the mask area. The highlighted
details persist on the display, allowing the scope to catch intermittent glitches
while you work on something else. The measurements window counts
the number of failures, and can display other measurements and statistics
at the same time. The numerical and graphical mask editors can be
used separately or in combination, allowing you to enter accurate mask
specifications and modify existing masks. You can import and export
masks as files.
High-End Features as Standard
With the OMSP-2000 Series, high-end features such as
resolution enhancement, mask limit testing, serial decoding,
advanced triggering, automatic measurements, math channels and
XY mode are all included standard. To protect your investment, both the
PC software and firmware inside the unit can be updated.
High Signal Integrity
Careful front-end design and shielding reduces noise, crosstalk
and harmonic distortion and provide improved pulse response and
bandwidth flatness. The result is simple: when you probe a circuit,
you can trust in the waveform you see on the screen.
VERTICAL
Number of Channels: 2 Bandwidth (-3 dB): OMSP-2204: 10 MHz OMSP-2205: 25 MHz Rise Time (Calculated): OMSP-2204: 35 ns OMSP-2205: 14 ns Resolution: 8 bits (12 bits with resolution enhancement) Input Characteristics: BNC, 1 MΩ/20 pF Input Coupling: AC/DC Input Sensitivity: 10 mV/div to 4 V/div (10 vertical divisions) Input Ranges: ±50 mV, ±100 mV, ±200 mV, ±500 mV, ±1 V,
±2 V, ±5 V, ±10 V, ±20 V Analog Offset Range
(Vertical Position Adjustment): None DC Accuracy: ±3% of full scale Overvoltage Protection: ±100 V (DC + AC peak)
HORIZONTAL
Max Sampling Rate (Real-Time 1 ch.): OMSP-2204: 100 MS/s OMSP-2205: 200 MS/s Max Sampling Rate (Real-Time 2 ch.): OMSP-2204: 50 MS/s OMSP-2205: 100 MS/s Max Sampling Rate (Repetitive/ETS): OMSP-2204: 2 GS/s OMSP-2205: 4 GS/s Max Sampling Rate (Streaming):
1 MS/s (typical) in OMEGASCOPE software Timebase Ranges: OMSP-2204: 10 ns to 1000 s/div OMSP-2205: 5 ns to 1000 s/div Buffer Memory Size (Shared): OMSP-2204: 8 k samples OMSP-2205: 16 k samples Max Buffers (Normal Triggering): 10,000 Timebase Accuracy: ±100 ppm
DYNAMIC PERFORMANCE
(Typical)
Crosstalk (Full Bandwidth): Better than 200:1 (equal ranges) Harmonic Distortion: < -50 dB at 100 kHz, full-scale input SFDR: >52 dB at 100 kHz, full-scale input Noise: 1 LSB (±1 V range) Pulse Response: < 7% overshoot Bandwidth Flatness (At Scope Input):
(+0.3 dB, -3 dB) from DC to full bandwidth
TRIGGERING
Sources: Ch A, Ch B Modes: None, auto, repeat, single Advanced Digital Triggers (Ch A, B): Rising, falling,
dual, hysteresis, window,
pulse width, window pulse
width, window dropout, interval, logic, delayed Trigger Types, ETS (Ch A, Ch B): Edge Trigger Sensitivity (Ch A, Ch B): Digital triggering provides 1 LSB
accuracy up to full bandwidth (ETS: typical 10 mV p-p at full bandwidth) Max Pre-Trigger Capture: 100% of capture size Max Post-Trigger Delay: 4 billion samples Trigger Re-Arm Time: PC-dependent Max Trigger Rate: PC-dependent
FUNCTION GENERATOR
Standard Output Signals: Sine, square, triangle,
DC voltage, ramp, sin(x)/x, Gaussian, half-sine Pseudorandom Output Signals: None Standard Signal Frequency: DC to 100 kHz Sweep Modes: Up, down, dual with selectable start/stop frequencies and increments Output Frequency Accuracy: ±100 ppm Output Frequency Resolution: < 0.01 Hz Output Voltage Range: ±2 V Output Adjustments: ±250 mV to ±2 V amplitude, ±1 V offset Amplitude Flatness (Typical): < 1 dB to 100 kHz DC Accuracy: ±1% of full scale SFDR: > 55 dB @ 1 kHz full-scale sine wave Output Characteristics: Front panel BNC, 600 Ω output impedance Overvoltage Protection: ±10 V
ARBITRARY WAVEFORM GENERATOR
Update Rate: 2 MS/s Buffer Size: 4 k samples Resolution: 8 bits Bandwidth: 100 kHz Rise Time (10 to 90%): <2 µs
SPECTRUM ANALYZER
Frequency Range:
OMSP-2204: DC to 10 MHz OMSP-2205: DC to 25 MHz Display Modes: Magnitude, average, peak hold Windowing Functions: Rectangular, Gaussian, triangular, Blackman,
Blackman-Harris, Hamming, Hann, flat-top Number of FFT Points: Selectable from 128 to half available buffer
memory in powers of 2
MATH CHANNELS
Functions: +, -, *, /, sqrt, ^, exp, ln, log, abs, norm, sign, sin, cos, tan,
asin, acos, atan, sinh, cosh, tanh, derivative, integral, freq, min, max,
average, peak Operands: A, B (input channels), T (time), reference waveforms,
constants, Pi
AUTOMATIC MEASUREMENTS
Oscilloscope: AC RMS, true RMS, DC average, cycle time, frequency,
duty cycle, falling rate, fall time, rising rate, rise time, high pulse
width, low pulse width, maximum, minimum, peak to peak Spectrum: Frequency at peak, amplitude at peak,
average amplitude at peak, total power, THD %, THD dB, THD plus noise, SFDR,
SINAD, SNR, IMD Statistics: Minimum, maximum, average and standard deviation
SERIAL DECODING
Protocols: CAN Bus, I²C, SPI, UART
MASK LIMIT TESTING
Statistics: Pass/fail, failure count, total count
DISPLAY
Interpolation: Linear or sin(x)/x Persistence Modes: Digital color, analog intensity, custom, or none
GENERAL
PC Connectivity: USB 2.0 hi-speed (full-speed compatible) Power Requirements: Powered from USB port Dimensions (Including Connectors):
150 L x 100 W x 40 mm D (5.9 x 3.9 x 1.6") Weight: < 0.22 kg (7.8 oz) Operating Environment: 0 to 50°C (32 to 122°F) (20 to 30°C for
stated accuracy); 5 to 80% RH noncondensing Storage Environment: -20 to 60°C (-4 to 140°F); 5 to 95% RH
non-condensing Safety Approvals: Designed to EN 61010-1:2001 EMC Approvals: Tested to EN61326-1:2006 and FCC Part 15
Subpart B Environmental Approvals: RoHS and WEEE compliant Software (Included): OMEGASCOPE Windows software PC Requirements: Microsoft Windows XP, Vista or Windows 7, 32
or 64-bit
† 所有金额以RMB显示 注: Comes complete with a 2 m (6') USB cable, Quick Start Guide, software and operator’s manual on CD.
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