Datasheet
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7SOLUTIONS FOR SCIENTIFIC AND ENGINEERING RESEARCH
46 GBaud. The OM5110 Multi-Format
Optical Transmitter is a C-and L-Band
transmitter capable of modulating
the most common coherent optical
modulation formats such as PM-QPSK
and PM-16QAM. For those who are
testing multi-carrier systems, the
OM2012 Tunable Laser provides extra
lasers in both C- and L-band.
Bit Error Rate Testing
PatternPro® PPG and PED Series
Single and Multi-Channel Pattern
Generators and Error Detectors are
ideal for simultaneous BER testing of
up to four lanes at 32Gb/s, and now
include pattern generation and error
detection capability at rates up to
40 Gb/s.
BERTScope BSA Series Bit Error
Rate Testers use long pseudo-
random patterns and accurate BER
measurements for comprehensive
signal integrity measurements on
communications systems up to
28 Gb/s.
Resources
Physical Layer Tests of 100 Gb/s
Communications Systems App Note –
Learn how to prepare for compliance
measurements on 100G standards.
Coherent Optical Signal Generation
with High Performance Arbitrary
Waveform Generator App Note –
Learn how instrument characteristics
influence the ability to generate
different modulation schemes, how to
compensate for internal and external
device imperfections, and to emulate
component and link distortions.
wavelength separation is more than
the OMA bandwidth. Unique MATLAB
integration provides unparalleled levels
of algorithm, signal processing, and
workflow customization. The OM1106
analysis software is available separately
or included with the OM4245 Coherent
Optical Modulation Analyzer.
Setting the Standard for
Signal Generation
The AWG70000 Series of arbitrary
waveform generators represents the
cutting edge in sample rate, signal
fidelity and waveform memory. The
AWG70000 Series can reach sampling
rates as high as 50 GS/s with 10 bits
vertical resolution, enabling creation
of multi-level signals such as 16QAM
or 64QAM at up to 32 GBaud data
rates. Up to 4 instruments can be
synchronized to provide 4 channels at
50 GS/s each.
The AWG5200 Series of arbitrary
waveform generators deliver the
industry's best combination of
sample rate and vertical resolution at
a surprisingly low price. Create real-
life environments based on accurate,
noise-free signals, and 10 GS/s 16-bit
performance that allows for direct
generation of signals up to 6 GHz.
The PPG3000 Series is capable of
generating patterns up to 40 Gb/s and
offers up to 1, 2, or 4 channels in a
single instrument for creation of dual-
polarization I-Q waveforms.
The OM5110 Multi-format Optical
Transmitter provides the flexibility to
modulate all of the most common
coherent optical formats at rates up to
DSA8300 Series Sampling
Oscilloscopes are suitable for accurate
characterization of optical transmitter
performance using built-in optical
reference receivers and very low jitter
noise floor. With an industry-leading
intrinsic jitter of less than 100 fs, the
DSA8300 Series provides support
for today’s optical communications
standards, time domain reflectometry
and S-parameter analysis. The DSA8300
Digital Sampling Oscilloscope is a
complete high-speed PHY Layer testing
platform for data communications from
155Mb/sec to 100G.
The OM4245 Coherent Optical
Modulation Analyzer, together with
the MSO/DPO70000SX 70 GHz Series
oscilloscopes, makes an ideal coherent
optical signal acquisition system for
400G, 1Tb/s and beyond. The OM4245
optical modulation analyzer provides
laboratory instrument-grade optics
and optical-to-electrical conversion
capable of handing the latest coherent
optical signals up to 80 GBaud. The
OM2210 Coherent Receiver Calibration
Source provides a simple solution
for calibrating the OM4245 or other
coherent receivers.
Developed specifically for coherent
optical analysis, OM1106 Coherent
Lightwave Signal Analyzer software
provides state-of-the-art demodulation,
measurements and visualization tools
for all of today’s coherent optical
standards. It also includes support for
spatial (or modal) division multiplexing
that requires an OMA to down
convert and digitize data for each
channel. Multi-carrier communication
applications also require one OMA
per wavelength channel when the