OM4225光調(diào)制分析儀

OM4245光學(xué)調(diào)制分析儀(OMA)是一個(gè)45 GHz 1550 nm (C波段和L波段)光纖測(cè)試系統(tǒng)，用于復(fù)雜調(diào)制信號(hào)的可視化和測(cè)量，為測(cè)試相干和直接檢測(cè)傳輸系統(tǒng)提供了一個(gè)完整的解決方案。OM4245由一個(gè)偏振和相位不同的接收器和分析軟件組成，能夠同時(shí)測(cè)量對(duì)光纖通信非常重要的調(diào)制格式，包括偏振多路復(fù)用(PM)格式，如QPSK、8QAM、16QAM、PAM4和許多其他格式。OMA軟件執(zhí)行所有校準(zhǔn)和處理功能，實(shí)現(xiàn)實(shí)時(shí)爆發(fā)模式星座圖顯示、眼圖顯示、龐加萊球和位錯(cuò)檢測(cè)。

關(guān)鍵特性

的靈活性

光學(xué)調(diào)制分析儀的結(jié)構(gòu)與實(shí)時(shí)和等時(shí)示波器兼容

完整的相干信號(hào)分析系統(tǒng)，適用于偏振復(fù)用QPSK、偏置QPSK、QAM、差分BPSK/QPSK等調(diào)制格式

顯示星座圖、相位眼圖、q因子、q圖、譜圖、龐加萊球、信號(hào)與時(shí)間、激光相位特性、誤碼率，并通過(guò)MATLAB接口提供額外的圖和分析

用大多數(shù)偏振復(fù)用信號(hào)測(cè)量任意階偏振模色散(PMD)

精確的光接收機(jī)

精密相干接收硬件為高精度、高穩(wěn)定性、偏振多樣化、光學(xué)場(chǎng)檢測(cè)提供了最小的溫度和時(shí)間變化

高線性光檢測(cè)允許運(yùn)行在高本振和信號(hào)功率水平，以消除電放大

一組集成的ECDL可調(diào)諧激光器，用作本振子，另一組用于自檢。這兩種激光器都具有業(yè)界的線寬和調(diào)諧范圍，適用于波段內(nèi)的任何波長(zhǎng)

光學(xué)調(diào)制分析儀軟件允許>5 MHz瞬時(shí)信號(hào)激光線寬-兼容標(biāo)準(zhǔn)網(wǎng)絡(luò)可調(diào)諧源，如DBR和DFB激光器

不需要激光相位或頻率鎖定

智能偏振分離跟隨信號(hào)偏振

用戶定義的可擴(kuò)展性

用戶通過(guò)MATLAB 2接口直接訪問(wèn)內(nèi)部函數(shù)

可通過(guò)以太網(wǎng)進(jìn)行遠(yuǎn)程訪問(wèn)

*的用戶界面結(jié)合MATLAB的強(qiáng)大功能，提供了全面的可視化，使用方便

光學(xué)調(diào)制信號(hào)分析儀軟件包括OM1106和OM4200系列產(chǎn)品

400G和1Tb/s超通道支持

多載波軟件選項(xiàng)允許用戶定義超信道設(shè)置

超通道配置允許用戶定義通道數(shù)量、通道頻率和通道調(diào)制格式

測(cè)試自動(dòng)化在每個(gè)通道獲得完整的度量

集成的測(cè)量結(jié)果可以方便地進(jìn)行通道到通道的比較

The OM4245 Optical Modulation Analyzer (OMA) is a 45 GHz 1550 nm (C- and L- band) fiber-optic test system for visualization and measurement of complex modulated signals, offering a complete solution to testing both coherent and direct-detected transmission systems. The OM4245 consists of a polarization- and phase-diverse receiver and analysis software enabling simultaneous measurement of modulation formats important to advanced fiber communications, including polarization-multiplexed (PM) formats such as QPSK, 8QAM, 16QAM, PAM4, and many others. The OMA software performs all calibration and processing functions to enable real-time burst-mode constellation diagram display, eye-diagram display, Poincaré sphere, and bit-error detection.

Key features

Unparalleled flexibility

• Optical modulation analyzer architecture is compatible with both real-time and equivalent-time oscilloscopes 1

• Complete coherent signal analysis system for polarization-multiplexed QPSK, offset QPSK, QAM, differential BPSK/QPSK, and other advanced modulation formats

• Displays constellation diagrams, phase eye diagrams, Q-factor, Q-plot, spectral plots, Poincaré Sphere, signal vs. time, laser phase characteristics, BER, with additional plots and analyses available through the MATLAB interface

• Measures polarization mode dispersion (PMD) of arbitrary order with most polarization multiplexed signals

Precise optical receiver

• Precise coherent receiver hardware provides minimal variation over temperature and time for a high degree of accuracy and high-stability, polarization-diverse, optical field detection

• Highly linear photo detection allows operation at high local oscillator and signal power levels to eliminate electrical amplification

• An integrated pair of ECDL tunable lasers for use as a local oscillator and another for self-test. Both lasers have industry-best linewidth and tuning range for any wavelength within the band

• Optical modulation analyzer software tolerates >5 MHz instantaneous signal laser linewidth – compatible with standard network tunable sources such as DBR and DFB lasers

• No laser phase or frequency locking required

• Smart polarization separation follows signal polarization

User-defined extensibility

• User access to internal functions with a direct MATLAB 2 interface

• Remote access available through Ethernet

• Superior user interface offers comprehensive visualization for ease-of-use combined with the power of MATLAB

• Optical modulation signal analyzer software included with OM1106 and OM4200 series products

400G and 1Tb/s superchannel support

• Multi-carrier software option allows user-definable superchannel setup

• Superchannel configuration allows user to define number of channels, channel frequency, and channel modulation format

• Test automation acquires complete measurements at each channel

• Integtrated measurement results allow easy channel-to-channel comparisons