EXFO details measurement of 528-Gbps signals using 66-GBd PM 16-QAM

Oct. 19, 2011
In a post-deadline paper delivered at last month’s ECOC conference in Geneva, researchers at EXFO Inc. (NASDAQ: EXFO, TSX: EXF) and Chalmers University in Goteborg, Sweden described the use of the company’s PSO-200 Optical Modulation Analyzer to measure a 528-Gbps transmission using polarization-multiplexed 16-ary quadrature amplitude modulation (16-QAM).

In a post-deadline paper delivered at last month’s ECOC conference in Geneva, researchers at EXFO Inc. (NASDAQ: EXFO, TSX: EXF) and Chalmers University in Goteborg, Sweden described the use of the company’s PSO-200 Optical Modulation Analyzer to measure a 528-Gbps transmission using polarization-multiplexed 16-ary quadrature amplitude modulation (16-QAM). The success of the demonstration highlights the capabilities of the company’s use of optical sampling for the PSO-200, EXFO asserts.

While the industry has settled on coherent-enabled modulation formats such as dual-polarization quadrature phase shift keying (DP-QPSK) as the most common modulation format for 100-Gbps transmission, higher data rates will likely require a different modulation approach. 16-QAM has emerged as one candidate for data rates such as 400 Gbps. However, as complex as DP-QPSK can be, 16-QAM represents a higher level of complexity and a potentially major challenge for test and measurement, particularly in terms of handling the baud rates required.

EXFO has long asserted that its optical sampling approach would enable measurement of higher baud rates than the real-time sampling strategy championed by competitors such as Agilent Technologies and Optametra (recently acquired by Tektronix) because its performance isn’t bounded by the current state of the art in analog-to-digital converters and digital signal processing (for example, see “Characterizing advanced modulation formats using optical sampling” from the February 2010 edition of Lightwave).

The demonstration reported at ECOC illustrates this point, said Greg Shinn, R&D director at EXFO, in a conversation after the show. As described in the ECOC paper, technicians amplified a pair of binary electrical PRBS15 signals at 66 GBd and applied them to a 31-GHz bandwidth IQ modulator to create a QPSK signal on a 100-kHz linewidth optical carrier. The QPSK was then up-converted to 16-QAM via a QAM emulation device from Kylia. The emulator combined a delayed (500 psec) and scaled (1:4 power ratio) copy of the signal to itself. The splitting ratio was controlled by rotatable waveplates, and a variable phase shifter controlled the phase shift between the copies to align them properly.

The resultant 66-GBd 16-QAM signal was then polarization multiplexed by splitting the signal and recombining the copies in orthogonal polarizations using a polarization beam splitter with a large delay between the polarizations. The output from the PM-16-QAM transmitter then passed through a variable attenuator/EDFA combination to vary the OSNR, then through a 2-nm optical filter before it reached the PSO-200.

The PSO-200 then performed both waveform and bit-error-rate measurements of the signal (Chalmers University supplied the data pattern generator that helped create the traffic). Shinn said that the instrument is capable of handling signals of at least 70 GBd, which he asserted is much greater than could be measured using real-time oscilloscopes whose current bandwidth tops out at 35 to 40 GHz.

For more information on laboratory test equipment and suppliers, visit the Lightwave Buyers Guide.

Sponsored Recommendations

The Road to 800G/1.6T in the Data Center

Oct. 31, 2024
Join us as we discuss the opportunities, challenges, and technologies enabling the realization and rapid adoption of cost-effective 800G and 1.6T+ optical connectivity solutions...

Advances in Fiber & Cable

Oct. 3, 2024
Attend this robust webinar where advancements in materials for greater durability and scalable solutions for future-proofing networks are discussed.

High-Speed Networking Event

Oct. 23, 2024
A Multi-Day online learning event crafted for optical communications professionals specializing in high-speed networking solutions Date: November 12-14Platinum Sponsor: AFLGold...

Understanding BABA and the BEAD waiver

Oct. 29, 2024
Unlock the essentials of the Broadband Equity, Access and Deployment (BEAD) program and discover how to navigate the Build America, Buy America (BABA) requirements for network...