Teledyne Lecroy - Optical Modulation Analyzer

Teledyne Lecroy - Optical Modulation Analyzer
  • Up to 65 GHz system bandwidth
  • Up to 130 GBaud detectable baud rate
  • Up to 160 GS/s sample rate
  • Real-time acquisition for testing of coherent modulated optical communications links
  • Built-in dispersion compensation, polarization de-multiplexing, and carrier recovery algorithms
  • Supports DP-QPSK, DP-16QAM, and a wide variety of other PSK and QAM formats
  • Support for custom modulation formats
  • Built-in local oscillator
  • Adaptive calibration – Receiver can be disconnected and reconnected without factory calibration

More

Teledyne LeCroy’s IQS42 and IQS70 Coherent Optical Receivers integrate seamlessly with Teledyne LeCroy’s LabMaster 10Zi-A series of real-time oscilloscopes to provide up to 65 GHz system bandwidth for optical modulation analysis of dual-polarized signals up to 130 GBaud. The Optical-LinQ optical modulation analysis software package provides real-time calibration and control of the Coherent Optical Receiver, and a wide variety of analytical views and parameters.

Industry leading system bandwidth

The 70 GHz IQS70 Coherent Optical Receiver pairs with the LabMaster 10-65Zi-A oscilloscope to provide a system bandwidth of 65 GHz, enabling analysis of signals up to 130 GBaud symbol rate.

For lower-rate applications, the 42 GHz IQS42 Coherent Optical Receiver provides up to 72 GBaud symbol rate analysis for DP-16QAM or DP-QPSK when used with the 36 GHz LabMaster 10-36Zi-A.

Fully scalable architecture with built-in flexilbility

With optical communications advancing at a rapid pace, equipment requirements are vast and ever-changing. It is critical that an OMA system be scalable to address tomorrow’s modulation formats and data rates. Rather than a monolithic, restrictive instrument, the Teledyne LeCroy OMA solution is a set of building blocks that can be easily upgraded and supplemented to address future test challenges.

Seamless System Architecture

The Teledyne LeCroy IQS Coherent Optical Receivers leverage 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 and performed at the time of measurement. This architecture also enables the easiest upgrade path in the industry – add an additional or faster acquisition module to the oscilloscope, connect the IQS receiver, and resume analysis!

Seamless Multi-Module Configuration

Teledyne LeCroy’s ChannelSync architecture ensures superior timing 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 results. The single oscilloscope display gives easy access to all channels and analysis results, regardless of the number of acquisition modules.

Seamless Software Integration

Optical-LinQ is an intuitive and fully integrated software package for analysis of optically modulated signals. It runs entirely within the user interface of the LabMaster 10Zi-A. No other OMA on the market offers such integrated control of both oscilloscope and coherent receiver. Optical-LinQ provides fully automated control of the IQS receiver, phase recovery algorithms, polarization demultiplexing, as well as an exhaustive number of modulation analysis displays and parameters.

More Product Information

Teledyne LeCroy - Optical Modulation Analyzer Systems
  • Up to 65 GHz system bandwidth
  • Up to 120 GBaud detectable baud rate
  • Up to 160 GS/s sample rate
  • Real-time acquisition for testing of coherent modulated optical communications links
  • Built-in dispersion compensation, polarization de-multiplexing, and carrier recovery algorithms
  • Supports DP-QPSK, DP-16QAM, and a wide variety of other PSK and QAM formats
  • Support for custom modulation formats
  • Built-in local oscillator
  • Adaptive calibration – Receiver can be disconnected and reconnected without factory calibration

Teledyne LeCroy - Optical Probes
Teledyne LeCroy's wide-band multi-mode optical-to-electrical converters are designed for measuring optical communications signals. Their broad wavelength range and multi-mode input optics make these devices ideal for applications including Ethernet, Fibre Channel, and ITU telecom standards. Available to support optical data rates up to 11.3 Gb/s with reference receivers, or slightly higher without reference receivers.

Teledyne LeCroy - VBA9000 Vehicle Bus Analyzer
  • 10 bit resolution; up to 13.8 bits with Optimized Filtering
  • 1 GHz bandwidths
  • Up to 40 GS/s sample rate
  • 15.4" capacitive touch screen
  • MAUI with OneTouch
    • Designed for touch
    • Built for simplicity
    • Made to solve
  • Advanced Tools
    • Jitter and Timing Analysis Capabilities
    • WaveScan – Search and Find
    • LabNotebook Documentation and Report Generation
    • History Mode – Waveform Playback
  • Optional Software Packages
    • Advanced Customization
    • Digital Filtering
    • Spectrum Analysis
    • Device and Switching Power Supply Analysis
    • Comprehensive set of serial data analysis, debug, validation and compliance tools
  • Analysis Packages Included
    • CAN FD TDME Symbolic
    • LIN TDME
    • Flexray TDMP

Anritsu - S412E - LMR Master™ Land Mobile Radio Modulation Analyzer
  • LMR Signal Analyzers with Coverage Mapping: P25, P25 Phase 2, DMR (MotoTRBO™), TETRA, NXDN, dPMR, PTC-ITCR, PTC-ACSES, NBFM, FDD & TDD LTE
  • Broadband Signal Analyzers: LTE, WiMAX
  • Interference Analyzer with Interference Mapping and support for MA2700A Handheld InterferenceHunter
  • Spectrum Analyzer: 9 kHz – 1.6 GHz, optional to 6 GHz
  • Cable and Antenna Analyzer: 500 kHz – 1.6 GHz, optional to 6 GHz
  • Return Loss, VSWR, Insertion Loss, S11 / S21, DTF
  • Internal Power Meter, optional External Power Sensor
  • Handheld, battery-operated design
  • Weighs less than 7.6 lbs. (including battery)
  • Rugged, field-proven design using Anritsu's 9th generation hardware platform
  • Daylight viewable color touchscreen display
  • Superior Immunity to RF interference
  • Remote control via Ethernet
  • Standard three-year warranty (battery one-year warranty)

Coherent Solutions - matrIQ-OSA™ – Optical Spectrum Analyzer
  • Range of wavelengths
    • Choose the model that meet your requirements and pay for only the capabilities you need. matrIQ-OSA can also be customized to other customer-specified wavelength ranges.
  • Grating-based architecture
    • Accurate measurement of optical spectrum without artifacts: good dynamic range, high optical throughput, high spectral resolution and high wavelength accuracy.
  • Absolute accuracy
    • With 0.025 nm accuracy you can spec/characterize your components with more accuracy.
  • Simple, intuitive operation with cohesionUI
    • cohesionUI makes it simple to control matrIQ-OSA from your PC or mobile device. Its cuttingedge design offers a sleek modern interface, cross device compatibility, customizable views and remote network access.
  • Ultra compact and flexible form factor
    • Housed in a compact and robust metallic case, its extremely small footprint helps you make the most of your available bench space.
  • USB or LAN operation
    • Connect to matrIQ-OSA with USB or LAN for simple setup and operation.
  • Excellent measurement correlation with our optical PXI modules
    • Shared product architecture lets you validate your system and test requirements in the lab with matrIQ-OSA, and scale up to high volume automated production testing with the OSAPXIe module.
  • Product warranty
    • This product comes with a 3 year warranty.

Yokogawa - AQ6376 3400 NM Optical Spectrum Analyzer
The AQ6376 is the latest version of our bench-top optical spectrum analyzer extending the wavelength coverage well beyond the NIR range of our previous models into the MWIR region from 1500 to 3400 nm.
Popular applications include the detection of gases such as carbon oxides (COx), nitrogen oxides (NOx), and hydrocarbon gas (CxHy) for environmental studies.
Similar to the long wavelength model, it offers the added benefits of gas purging input ports / output ports, a built-in cut filter for high order diffracted light, and a novel double speed mode which increases the sweep speed up to 2 times compared to the standard sweep mode.

Yokogawa - AQ6370D Telecom Optical Spectrum Analyzer
World-Class Optical Performance
  • Wavelength range: 600 to 1700nm
  • High wavelength accuracy: ±0.01nm
  • High wavelength resolution: 0.02nm
  • Wide dynamic range: 78dB typ.
  • Wide level range: +20 to -90dBm
  • Fast measurement: 0.2 sec. (100nm span)
  • Applicable to single-mode and multimode fibers

Coherent Solutions - OSAPXIe – Optical Spectrum Analyzer Module
  • Range of wavelengths
    • Choose the model that meet your requirements and pay for only the capabilities you need. OSAPXIe can also be customized to other customer specified wavelength range.
  • Grating-based architecture
    • Accurate measurement of optical spectrum without artifacts: good dynamic range, high optical throughput, high spectral resolution and high wavelength accuracy.
  • Simple operation
    • With our modern and intuitive GUI, operation is simple.
  • Single platform testing
    • Conduct all your DUT characterization on one platform and spend less time switching cables and patchcords between instruments.
  • Space-saving form factor
    • Replace bulky individual optical test instruments with one small PXIe module and drastically reduce the footprint of your test setup
  • Seamless PXI integration
    • Take advantage of PXI’s integrated triggering and synchronization capabilities across electrical and optical instruments.
  • Product warranty
    • This product comes with a 3 year warranty.

Luna - OVA 5000 - Optical Vector Analyzer - All-Parameter Analysis
The OVA simultaneously performs these optical component characterizations every 3 seconds:
  • Insertion Loss (IL)
  • Return Loss (RL)
  • Polarization Dependent Loss (PDL)
  • Phase Response
  • Group Delay (GD)
  • Chromatic Dispersion (CD)
  • Polarization Mode Dispersion (PMD) / Second Order PMD
  • Min/Max Loss due to Polarization
  • Impulse Response
  • Jones Matrix Elements
  • Phase Ripple – Linear and Quadratic