Optical Modulation Analyzer The Highest Performing OMA in the World Teledyne LeCroys’ LabMaster 10 Zi Oscilloscope | Coherent Solutions’ IQScope-RT KEY FEATURES ·· Up to 70 GHz Coherent Receiver bandwidth ·· Up to 130 GBaud detectable ·· Real-time acquisition for testing of long-haul optical channels ·· Built-in dispersion compensation, polarization de-multiplexing and carrier recovery algorithms with exhaustive analytical views and parameters ·· User algorithm development with MATLAB™ ·· Supports DP-QPSK, DP-16-QAM, a variety of other PSK & in partnership with QAM formats and custom formats ·· The most seamlessly integrated OMA system on the market Providing Complete Solutions to R&D Engineers in Coherent Optical Communications
IQPulse Pattern Generator RF electrical signal generation of high bandwidth PRBS signals Options available: IQPPG - 4 channel IQPPG - 2 channel
IQTransmitter Generation of optical signals encoded with high bandwidth complex modulation formats - DPQPSK, 16QAM and 64QAM Options available: IQTransmitter Full Dual-Polarization IQTransmitter Emulated Dual-Polarization
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THE HIGHEST PERFORMING OPTICAL MODULATION ANALYZER ON THE MARKET
IQScope-RT ‘Gold Standard’ Coherent optical receiver with up to 70GHz signal bandwidth
TM Optical LINQ OPTICAL-LINQ Optical modulation analyzer software
Teledyne LeCroys’ LabMaster 10Zi Real-time oscilloscope Options available: 4 channel at 36GHz 4 channel at 65GHz The World’s Highest Performing Optical Modulation Analyzer System
The IQScope-RT Coherent Optical Receiver with LabMaster real-time oscilloscopes provides up to 65 GHz of bandwidth for optical modulation analysis of dual-polarized signals up to 130 Gbaud. That’s the highest bandwidth commercial capability in the world.
The combined system from Coherent Solutions and Seamless Multi-Module Configuration Teledyne LeCroy is the market leader in OMA solutions; ChannelSync™ architecture utilizes a single 10 GHz providing ground breaking oscilloscope with a seamlessly distributed clock to precisely align all acquisition modules integrated, intuitive interface and a uniquely scalable for lowest inter-channel jitter and the highest confidence format that delivers unrivalled performance. You get full in results. characterization of your optical signal’s true performance - Out of the Box. Unmatched Software Integration Optical LINQ, the OMA Signal Analysis software, runs on Industry Leading Bandwidth and the LabMaster 10 Zi and is fully integrated into the DSO Sample Rate software giving you a seamless, intuitive interface. 70 GHz Coherent Optical Receiver bandwidth provides up to 130 GBaud symbol rate analysis when used with the 65 Smart and Dynamic Calibration GHz LabMaster 10-65 Zi acquisition modules. The IQScope-RT provides optimized signal fidelity and adaptive self-calibration allowing the receiver to be Modular Scalable Architecture disconnected and reconnected without factory calibration. Upgradable oscilloscope bandwidth (20 GHz - 65 GHz) and channel count (4 in a single unit and up to 80 with Watch the short features video here! additional acquisition modules). Choose the functionality you need now and upgrade later.
Real-time OMA Solutions 1
Introducing Coherent Solutions' IQScope-RT the World's Leading Coherent Receiver
The IQScope-RT Coherent Optical Receiver brings optical modulation analysis to the Teledyne LeCroy LabMaster 10 Zi oscilloscope. As a calibrated reference receiver, the IQScope-RT performs heterodyne detection on both orthogonal polarization components of the optical field.
Up to 70 GHz electrical outputs of X and Y Modulated optical input: C and L - Band polarization in-phase and quadrature signals
Laser wavelength/frequency and power Use the built-in local oscillator or your own adjustable via front-panel interface or from narrow-linewidth local oscillator the oscilloscope with 100 MHz resolution C, L or C and L - Band; optional
Real-time OMA Solutions 3 Introducing Teledyne LeCroy LabMaster 10 Zi the World's Leading Real-time Oscilloscope
1. World’s Highest Performing Real-Time Oscilloscope - 65 GHz bandwidth, (5.2 ps risetime ), 20 - 80% 5 160 GS/s sample rate, up to 80 channels, 8 up to 1024 Mpts of analysis memory 9 11 12
2. Modular - start with four channels and grow your system over time. Spread out your investment as funds permit 4 10 3. Wide bandwidth upgrade range (25 - 65 GHz) 1 provides investment protection 7
4. ChannelSync™ architecture utilizes a 10 GHz 3 distributed clock for precise alignment of all 2 acquisition systems 6 5. Single trigger circuit for all modules eliminates additive trigger jitter that occurs with 10 MHz clocking and trigger synchronization of multiple conventional oscilloscopes
6. Simple - connect and acquire - Teledyne LeCroy has done the hard work for you
7. 325 MB/s data transfer rate from the LabMaster to a separate PC with Teledyne LeCroy Serial Interface Bus (LSIB) option
8. Server-class multi-core processor combines with X-Stream II streaming architecture for fast acquisition and analysis - 33.6 GHz effective CPU clock rate and 24 GB of RAM standard (expandable to 192 GB)
9. Utilize the built-in 15.3” widescreen (16 x 9) high resolution WXGA color touch screen display - or connect your own with up to WQXGA 2560 x 1600 pixel resolution
10. Highly stable timebase (50 fsrms) over long acquisitions, low Jitter Measurement and Rj noise floor
11. Deepest standard toolbox with more measurements, more math, more power
12. 14.1 Gb/s Serial Trigger Option - 80-bit NRZ, 8b/10b and 64b/66b triggering
4 Coherent Solutions Ultimate Electrical Signal Analysis Solution
High Bandwidth, High Precision Up to 325 MB/s Data Transfer LabMaster 10 Zi is the world’s highest bandwidth Teledyne LeCroy’s Serial Interface Bus (LSIB) to allow (65 GHz) real time oscilloscope. The modular design acquired data to be transferred to another computer allows more channels with better performance, and at speeds up to 325 MB/s to leverage the LabMaster permits simple and easy upgrades. Yet, the operation oscilloscope solely as a data acquisition device with is the same as any other oscilloscope - there is a single fast offload of acquired data to another CPU for 10 GHz timebase clock, trigger circuit, and display further analysis. for all acquisition modules and channels. Teledyne LeCroy’s ChannelSync™ architecture ensures precise synchronization of all acquisition modules and virtually eliminates jitter between channels for the highest possible phase performance.
Complete Customization All configurations of LabMaster 10 Zi support the needs of researchers with complete customization capability through the use of the XDEV software capability. This provides the ability to integrate a MATLAB or other user-generated script into the oscilloscope’s processing stream - ideal for proprietary equalization and compensation algorithms.
16-Channel LabMaster 10 Zi system in OC910 cart
SDAIII-CompleteLinQ Teledyne LeCroy’s SDAIII-CompleteLinQ Serial ·· Data, Crosstalk and Noise Analysis toolset provides unique capabilities for serial data analysis. It is the only toolset with simultaneous eye, jitter, noise and crosstalk analysis on multiple lanes.
SDAIII-CompleteLinQ’s Unique Capabilities: ·· Four lanes of analysis ·· Integrated fixture and channel de-embedding/emulation ·· Simultaneous jitter, noise and eye analysis on four lanes ·· Multi-block system and crosstalk modeling with ·· Extrapolated noise analysis with the new Crosstalk Eye VirtualProbe ·· Multi-scenario comparisons with the new Reference Lane ·· Transmitter and receiver equalization modeling ·· LaneScape Comparison Mode
Real-time OMA Solutions 5 Possess the Power of Full Signal Characterization
It is generally accepted that EVM is a representation of the overall signal quality. However, EVM is calculated from constellation points sampled at the center of symbol and often fails to represent what happens during symbol transitions.
Symbol transitions or trajectories measured with sufficient analyzer bandwidth can reveal transmitter impairments such as IQ data skew, receiver channel skew, pattern dependent jitter, modulator chirp and more. Having an OMA system with a high bandwidth gives you the power to fully characterize and troubleshoot your transmitter.
32 GBaud QPSK - Modulator Chirp The chirp, or the instantaneous frequency variation over resolve the transition with a high level of accuracy to be time, results in curvy transitions between symbols on able to show the presence of chirp. the I vs. Q plot. An adequate bandwidth is necessary to
Measurement with 20 GHz OMA Measurement with 36 GHz OMA Constellation Plot Vector Diagram Vector Diagram
EVM = 8.3% EVM = 8.3% EVM = 6.3%
32 GBaud QPSK - IQSkew The IQ skew, or the time delay between RF drive signals signal characterization that can be achieved with a high of I and Q channels, introduce curvature to the inner bandwidth OMA system. transitions of the I vs Q plot. This is another example of
Measurement with 20 GHz OMA Measurement with 36 GHz OMA Constellation Plot Vector Diagram Vector Diagram
EVM = 7.2% EVM = 7.2% EVM = 5.5%
6 Coherent Solutions 56 GBaud QPSK Source with 40 GHz Bandwidth Not only does the Coherent Solutions IQScope-RT for 32 GBaud signals, it is the only commercial system with the Teledyne LeCroy LabMaster 10 Zi series of capable of revealing a meaningful EVM at 56 GBaud Oscilloscopes provide much greater characterization signals and higher. Measurement with 33 GHz OMA Measurement with 65 GHz OMA
EVM = 23% EVM = 5.8%
OMA Bandwidth Selection
The IQScope-RT OMA system is available in a wide range of bandwidths, from 20 GHz up to 65 GHz, to suit your specific requirements.
LabMaster 10 Zi Acquisition Module IQScope-RT Coherent Receiver
LabMaster 10-20Zi 20 GHz x 4 CH
LabMaster 10-25Zi 25 GHz x 4 CH IQScope-RT-SBW - 37 GHz (min), 42 GHz (typ) LabMaster 10-30Zi 30 GHz x 4 CH Available LabMaster 10-36Zi 36 GHz x 4 CH Bandwidth LabMaster 10-50Zi 50 GHz x 2 CH
LabMaster 10-60Zi 60 GHz x 2 CH IQScope-RT-HBW - 65 GHz (min), 70 GHz (typ)
LabMaster 10-65Zi 65 GHz x 2 CH
Real-time OMA Solutions 7 Target Applications
Visibility for Component Testing The amplitude and phase measurement capabilities of Optical-LINQ enable detailed component testing. It is now possible to directly measure the effects of a single component on the phase of the electric field.
Common applications and measurements include: ·· Modulator research and development ·· Modulator chirp measurements ·· Dispersion measurements for dispersion compensation elements Evaluation for Transmitter Testing The high optical/electrical bandwidth is ideal for transmitter evaluation, tuning, and signal fidelity validation. And with 65GHz of electrical bandwidth, it is now possible to test for the highest bandwidth electrical signal fidelity.
Common applications and measurements include: ·· Transmitter control loop validation and testing ·· Modulation format research and development ·· Forward error correction testing PAM4 and NRZ Tributary Electrical Signal Eye Diagram and Jitter Analysis Optical-LINQ along with Teledyne LeCroy’s SDAIII contains multi-lane eye and jitter analysis, LaneScape™ comparison modes, vertical noise measurements, and crosstalk analysis tools. These capabilities provide the deepest insight into the behavior of multi-lane PAM4 and NRZ serial data tributaries. Since your coherent optical receiver is calibrated to the LabMaster oscilloscope, it is easy to use the oscilloscope for other laboratory needs, such as electrical validation.
Some common applications and measurements include: ·· Total Jitter (Tj), Random Jitter (Rj) and Deterministic Jitter (Dj) separation ·· Crosstalk Analysis and Debug ·· PRBS-31 Analysis ·· Electrical link embedding/de-embedding and equalization ·· CEI-11, -25, -28 Validation ·· 100GASE-R Validation
8 Coherent Solutions True BER Counting Optical-LINQ offers both quick and convenient BER Estimates along with true and accurate BER counting capabilities. The BER set up panel allows you to configure the coding scheme from one of the common pre-set options, or define your own custom bit sequence and multiplex options.
Custom Modulation Format Development Optical-LINQ comes with pre-set support for many of the common optical modulation formats, including QPSK, 16QAM and 64QAM. If you are developing or working with non-conventional modulation formats, you can define your own format using Optical-LINQ’s powerful custom modulation format definition capability.
Receiver Link Validation Understanding system performance along the optical link or at the receiver itself is essential to determine the performance of the phase modulated signals. Users can enter fiber-based values for compensation of chromatic dispersion (CD).
Common applications and measurements include: ·· State of Polarization versus time ·· Total Link Dispersion Custom DSP Algorithm Validation Test and validation of digital signal processing (DSP) algorithms is a vital part of the transceiver development. Optical-LINQ is equipped with built-in DSP algorithms such as CMA, MMA, Viterbi & Viterbi for you to use as tested reference algorithms. And the custom code integration feature lets you use and validate your own algorithms in MATLAB format.
Real-time OMA Solutions 9 Fully Scalable Architecture with Built-in Flexibility
Coherent Solutions knows that your equipment budgets can be limited, and requirements are vast. Therefore, we provide building blocks that allow you to start small and grow over time, and that make it easy to use your test equipment for a variety of other tasks.
LabMaster MCM-Zi Master IQScope-RT Coherent Control Module Optical Receiver The control, display, clocking, Up to 70 GHz of electrical bandwidth and analysis engine for the 10 Zi with internal local oscillator. Unit oscilloscope. One MCM-Zi is used is controlled by LabMaster MCM-Zi with multiple acquisition modules to Master Control Module through USB best leverage your initial investment. connection.
LabMaster 10 Zi Acquisition Optical-LinQ Optical Module Modulation Analysis A single acquisition module is Software available with four channels and Provides fully automated control an industry leading 36 GHz of of the IQScope-RT, phase recovery bandwidth, expandable to 65 GHz. algorithms, polarization de-multiplexing, and a variety of modulation analysis displays and parameters.
Choose your specification, knowing you can upgrade
IQScope-RT (option SBW) IQScope-RT (option HBW) and and LabMaster 10-36Zi LabMaster 10-50Zi / 10-65Zi
(4 Channel at 36 GHz) (4 Channel at 50 GHz or 65 GHz)
The single acquisition The acquisition modules module can later be can later be expanded expanded to higher to 65 GHz, or additional bandwidth, and additional acquisition modules can be acquisition modules can added as needs change. be added.
OMA system bandwidth 36 GHz OMA system bandwidth 36 GHz / 65 GHz
Max. detectable baud rate 72 GBaud Max. detectable baud rate 72 GBaud / 130 GBaud
10 Coherent Solutions Completely Seamless OMA System Design
Seamless Multi-Module Configuration Teledyne LeCroy’s ChannelSyncTM architecture ensures superior phase accuracy, by design. Using a single 10 GHz distributed clock for all acquisition modules enables the lowest jitter between all channels, the simplest integration and connection and the highest confidence in your results.
The single oscilloscope display gives you easy access to all channels and analysis results, regardless of the number of acquisition modules.
Seamless System Architecture Coherent Solutions IQScope-RT leverages a system architecture that allows pairing of the coherent optical receiver with any compatible Teledyne LeCroy oscilloscope without any factory calibration. All required calibrations are built into Coherent Receiver or performed at the time of measurement.
Seamless Software Integration Optical-LinQ, developed by Coherent Solutions is an intuitive and fully integrated software package for analysis of optically modulated signals. It runs on the LabMaster 10 Zi and is fully integrated into the DSO software giving you a single, intuitive interface.
Optical-LinQ provides fully automated control of the IQScope-RT, phase recovery algorithms, polarization de- multiplexing with an exhaustive number of modulation analysis displays and parameters.
Real-time OMA Solutions 11 Seamless Hardware Configuration
The IQScope-RT has been designed to accommodate your preferred system configuration, whether that is a bench-top, LeCroy cart, or rack-mount arrangement. The dimensions and layout of the front panel elements ensure user friendly integration with the oscilloscopes.
Standard Bench-top Configuration (BT) Optional LeCroy Cart Configuration (LC) The depth of the IQScope-RT case has been designed to The IQScope-RT is designed to be mounted in an OC910 provide solid support for LeCroy’s LabMaster 10 Zi. Teledyne LeCroy cart. The depth of the case allows the maximum space behind the instrument for cable connections within the rack. The placement of the IQScope-RT on the second shelf - between the MCM-Zi and the Acquisition Module - creates the optimum range for the rigid RF cables and connections.
IQScope-RT in bench-top configuration supporting an MCM-Zi
IQScope-RT in LeCroy cart configuration between MCM-Zi and 10 Zi Acqusition Module
12 Coherent Solutions Optional Rack-mount Configuration (RM) The IQScope-RT is also designed to be mounted in a standard 19 inch rack. The depth of the case allows maximum space behind the instrument for cable connections within the rack.
IQScope-RT with rack-mount IQScope-RT rack-mounted in a bracket attachments standard 19 inch rack
BT LC RM Order code IQScope-RT - BBB - WW - BT IQScope-RT - BBB - WW - LC IQScope-RT - BBB - WW - RM Included N/A Teledyne LeCroy OC910 Cart IQScope-RT rack mounting kit accessories IQScope-RT: IQScope-RT: IQScope-RT: 440(w) x 390(d) x 97(h) mm 440(w) x 390(d) x 97(h) mm 440(w) x 390(d) x 97(h) mm 17.3"(w) x 15.4"(d) x 3.8"(h) 17.3"(w) x 15.4"(d) x 3.8"(h) 17.3"(w) x 15.4"(d) x 3.8"(h) Teledyne LeCroy OC910 Cart: IQScope-RT with mounting kit 574(w) x 668(d) x 1341(h) mm (overall/outter width): Dimensions 22.6"(w) x 26.3"(d) x 52.8"(h) 479(w) x 390(d) x 97(h) mm 22.6"(w) x 15.4"(d) x 3.8"(h) Horizontal distance between rack mounting holes: 465(w) mm 18.3"(w)
Real-time OMA Solutions 13 Unmatched Software Performance
The world leading Optical-LINQ software for analysis of optically modulated signals can now be used with any coherent optical receiver of your choice. Users can select a wide variety of analysis views and parametric measurements to gain a complete understanding of their optical signal path.
Unrivalled Software Integration Parametric Measurements The OMA functions and controls are fully integrated Optical-LINQ includes the parametric measurements in the LabMaster oscilloscope software. You can apply you need to quantify the health of your signal path and any of LabMaster’s extensive signal diagnosis tool kits modulation. Selected measurements are presented in directly on the OMA signals. LabMaster’s user-friendly tabular format that is easily saved for documentation and interface also allow intuitive layout of visual and further analysis. numerical analysis outputs which can be fully customized to your liking. Parametric Measurements List ·· Error Vector Magnitude Analysis Views ·· Q Factor Display the signal just the way you want it, using Optical- ·· BER Estimate LINQ’s extensive list of visualization options: ·· I Bias Error ·· Q Bias Error ·· I vs. Q Constellation ·· Quadrature Error ·· I vs. Q Trajectory ·· IQ Skew ·· Reference Symbols ·· IQ Offset ·· I Eye Diagram ·· IQ Imbalance ·· Q Eye Diagram ·· Frequency Offset ·· Intensity Eye Diagram ·· Magnitude Error ·· Phase Eye Diagram ·· Phase Error ·· EVM % Eye Diagram ·· Polarization Mode Dispersion ·· Recovered I vs. Time ·· XY Skew ·· Recovered Q vs. Time ·· Polarization Dependent Loss ·· Intensity vs. Time ·· Phase vs. Time ·· EVM % vs. Time ·· Phase Error vs. Time ·· Carrier Phase vs. Time ·· E-field Spectrum ·· I Spectrum ·· Q Spectrum ·· S1, S2, S3 Polarization State ·· Raw I vs. Time ·· Raw Q vs. Time ·· Calibration Buffer I ·· Calibration Buffer Q
14 Coherent Solutions OMA control panel with an intuitive layout
OMA visualizations shown with color persistence in 3D
Constellation Diagram I Eye Diagram Q Eye Diagram with Trajectory
Phase Eye Diagram
Recovered Trace I
Intensity Eye Diagram E-field Spectrum
Real-time OMA Solutions 15 Dynamic Calibration
The IQScope-RT uses precision measurement and de-embedding of the entire electrical signal path from the modulated signal input to the oscilloscope input with dynamic self-calibration, enabling field disconnection of the oscilloscope for use in related applications.
Accurately Calibrated OMA System, Right Out of the Box The IQScope-RT hardware is factory calibrated to a high level of accuracy together with high-bandwidth RF cables, so that you can take it out of the box and start using it. With LabMaster’s ChannelSync™ user skew calibration of input channels, you can easily re-calibrate the system even if you change or upgrade the LabMaster acquisition module.
Dynamic Calibration, Every time. Every time when the OMA starts, the software dynamically captures and learns from the input signal. The Smart Dynamic Calibration ensures that the scope settings are automatically optimized for the signal level across all four tributary input channels. All you need to do is pressing the start button.
16 Coherent Solutions OMA System Schematic Diagram
Modulated Signal Input LO Input Laser Output
IQScope-RT PBS 50/50
90° Hybrid 90° Hybrid Laser
Balanced Balanced Balanced Balanced Detector Detector Detector Detector
OMA Control via USB
LabMaster 10 Zi
ADC ADC ADC ADC
OMA Calibration/Correction
DSP Algorithms Dispersion Compensation Polarization Demultiplexing Carrier Recovery
Visualizers Constellation, Trajectories, Eye Diagrams, Masks, Spectrum
Measurements EVM, I&Q Bias Error...etc.
Real-time OMA Solutions 17 Technical Specifications
Optical Modulation Analyzer Performance LabMaster 10 Zi + IQScope-RT Error Vector Magnitude Noise Floor <2.0% (all inclusive)* Amplitude Error <2% Phase Error <1° Quadrature Error <0.5° Number of Optical Polarizations 2 * Test conditions: Single Polarization, 13 GHz channel bandwidth, 2.5 GHz frequency offset, 14.5 dBm LO input power, 7.5 dBm signal power
Oscilloscope Acquisition Performance LabMaster 10-36Zi LabMaster 10-50Zi LabMaster 10-65Zi
Number of Channels 4 Bandwidth 36 GHz 50 GHz 65 GHz Sample Rate 80 GS/s 160 GS/s
Jitter Between Channels <250 fsrms <190 fsrms <130 fsrms Internal timebase with 10 GHz clock frequency common to all input channels. Single, distributed 10 GHz clock for all channels ensures precise synchronization with timing accuracy between all channels identical to that provided within a single, conventional oscilloscope package. ADC Resolution 8-bit Standard Memory per Channel 32 Mpt/Ch Maximum Memory per Channel 512 Mpt/Ch 1024 Mpt/Ch
Optical LINQ Software Eye Diagrams I, Q, EVM (EVM% vs. Time), Phase, Intensity All provided for both polarizations, independently or simultaneously IQ Plots Constellation with and without vectors All provided for both polarizations, independently or simultaneously Pattern Plots (Tracks/Trends) Recovered Data I & Q, Intensity, Phase (Intensity Angle), EVM (EVM% vs. Time), Phase Error vs. Time Raw Traces Data I and Q Spectra Efield, I and Q Polarizations Stokes parameters S1, S2, S3 Measurements IQ RF (Gain) Imbalance, IQ Quadrature Error, I Bias Error, Q Bias Error, IQ Skew, I-Q Offset (I and Q Bias Error), Magnitude Error, EVM@Symbol (% RMS), EVM Phase Error@Symbol, Q-Factor, BER Estimate, State of Polarization, PMD, XY Skew, PDL, True BER counting TRUE BER Counting Supports a variety of data multiplexing options Includes multiple gray codes, binary codes and customizable symbol to binary encoding Support for PRBS patterns 23-1, 25-1, 26-1, 27-1, 28-1, 29-1, 210-1, 211-1, 212-1, 213-1, 214-1, 215-1, 216-1, 220-1, 223-1, 231-1 and user-defined patterns Digital Signal Processing Optical Carrier Phase Recovery, Veterbi&Veterbi, Feed-Forward Chromatic Dispersion - User-entered fiber values, FIR and Frequency domain Polarization De-Multiplexing: Constant-Modulus Algorithm and Multi-Modulus Algorithm with or without FIR equalizer, MATLAB - User-defined Supported Modulation Formats Single and dual-polarizations of the following: BPSK, QPSK, DQPSK, 8PSK, BPSK-RZ, QPSK-RZ, DQPSK-RZ, 8PSK-RZ, 8-QAM, 16-QAM, 32-QAM, 64-QAM, 8-QAM-RZ, 16-QAM-RZ, 32-QAM-RZ, 64-QAM-RZ, OOK, OOK-RZ, laser only, Arbitrary user-defined formats
18 Coherent Solutions Coherent Optical Receiver Performance IQScope-RT Option SBW IQScope-RT Option HBW Electrical Bandwidth 42 GHz typical 70 GHz typical 37 GHz minimum 65 GHz minimum Optical Phase Angle of I-Q Mixer* 90 deg ±0.5 deg Relative Skew* ±1 ps
Optical DUT Input Input Wavelength Range 1527 to 1567 nm (C-Band model, option C) 1528 to 1605 nm (C and L-Band model, option CL) Maximum Input Power +15 dBm Maximum Input Power, Damage Level +19 dBm Receiver Polarization Extinction Ratio >20 dB
Optical LO Output Optical CW Output Power +15.5 dBm Wavelength Range 1527.60 to 1565.50 nm (C-Band model) 1527.60 to 1565.50 nm and 1570.01 to 1608.76 (C and L-Band model)
External LO Input Optical Input Wavelength Range 1528 to 1605 nm External LO Oscillator Input Power Range +4 dBm to +15.5 dBm
Maximum Input Peak Power (damage level) +25 dBm Instantaneous Linewidth <500 kHz
Local Oscillator Wavelength Range 1528.77 to 1563.86 nm (C-Band model, option C) 1528.77 to 1563.86 nm 1570.01 to 1608.76 nm (C and L-Band model, option CL) Minimum Wavelength Step ~1 pm Minimum Frequency Step 0.1 GHz Tuning Time/Sweep Speed < 30 s Absolute Wavelength Accuracy 10 pm Linewidth (short term) <100 kHz, 25 kHz typical Sidemode Suppression Ratio 55 dB typical, >40 dB RIN -145 dB/Hz (20 MHz to 10 GHz) Coherent Optical Receiver General Characteristics Dimensions 440(w) x 390(d) x 97(h) mm (17.32" (w) x 15.35" (d) x 3.82" (h)) Weight 9.2 kg (20.3 lbs) Power Supply ~100 - 240 V; 50/60 Hz; 20W Max Operating Temperature Range 5°C to 45°C (41 °F to 113 °F) Storage Temperature Range -40°C to 70°C (-40 °F to 158 °F) * = After Correction Note: All specifications subject to change without notice Ordering Information IQScope-RT - BBB - WW - MM BBB = Bandwidth Option (SBW, HBW) WW = Local Oscillator Wavelength Range (C, CL) MM = Mounting Option (BT, LC, RM)
Real-time OMA Solutions 19 Notes
20 Coherent Solutions Real-time OMA Solutions 21 To find out more, get in touch with us today.
Coherent Solutions Ltd Teledyne LeCroy Inc. Unit A, 28 Canaveral Drive 700 Chestnut Ridge Road Rosedale, Auckland 0632 Chestnut Ridge, NY 10977 New Zealand USA
General Enquiries: [email protected] Enquiries: [email protected] Technical Support: [email protected] Tel: +1 800 553 2769 Tel: +64 9 478 4849 Fax: +1 845 578 5985 Fax: +64 9 478 4851 www.teledynelecroy.com www.coherent-solutions.com
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© 2015 Coherent Solutions Ltd. All rights reserved. No part of this publication may be reproduced, adapted, or translated in any form or by any means without the prior permission from Coherent Solutions Ltd. All specifications are subject to change without notice. Please contact Coherent Solutions for the latest information. V3.6