Anritsu Corporation (President Hirokazu Hamada) is now supporting FEC tests of 400-GbE and next-generation 800-GbE*1 QSFP-DD and OSFP transceivers*2 by adding PAM4 PPG 8ch synchronous/FEC*3 pattern-generation functions to the company’s Signal Quality Analyzer-R MP1900A series.
FEC is being adopted at data centers using PAM4*4 to implement faster and larger-capacity 400-GbE, etc., communications with assured quality.
In addition, there is also active development of 4- and 8-multilanes as well as PAM4 technologies. As a result, transmission quality tests for QSFP-DD, OSFP, etc., optical modules urgently need techniques to confirm the degree of error correction using multilane FEC patterns with added jitter and ISI stress. Moreover, such measurements require a signal source for accurate control of the 8 synchronized channels and the phase and patterns between channels.
The Signal Quality Analyzer-R MP1900A series Pulse Pattern Generator all-in-one BERT supports both generation of 400-GbE PAM4-signal multichannel FEC patterns and Jitter Tolerance measurements. As well as supporting 1ch and 4ch patterns, 8ch pattern synchronization and FEC pattern generation functions have been added to this unique high-speed PAM4 BERT, supporting 8-lane transceivers for 400-GbE communications.
Outline of Stress Tests using MP1900A FEC Patterns
Since accurate FEC tests are impossible using methods adding jitter stress to just one out of 8 lanes, it is necessary to test by adding jitter stress to all synchronized lanes. Consequently, the Anritsu MP1900A series supports generation of 8ch synchronized FEC patterns defined by the 400GBASE-LR8/FR8*5 standard, as well as error insertion, and jitter and ISI stress functions using the MU196020A PAM4 PPG Multimode with the Inter-Module Sync, FEC Pattern Generation, Emphasis, and Adjustable ISI options. 8ch stressed signals synchronized using these functions are transmitted to QSFP-DD, etc., transceivers to implement more-reliable, high-reproducibility FEC tests by analyzing the results after error correction.
[Click for more details about the MP1900A.]
[Target Markets and Applications]
■ Target Markets: 400 and 800-GbE communications equipment
■ Applications: Evaluation of bit error rates of 400 and 800-GbE communications equipment
*1 400-GbE and 800-GbE
Communication test standards defined by IEEE
*2 QSFP-DD and OSFP Transceivers
Optical transceiver modules for 400-GbE transmissions
Abbreviation for Forward Error Correction; one error detection and correction technology used at data transmission
Pulse Amplitude Modulation (PAM) transmission technology controls changes in voltage amplitude (pulse height). PAM4 transmits 2 bits of data using four voltage levels in one time slot.
*5 400GBASE-LR8/FR8 Standard
400-GbE transmission standard. LR8 defines transmissions 10-km distance range using 8 multiplexed waveforms; FR8 defines transmissions 2-km distance range using 8 multiplexed waveforms.
For further information please contact:
Anritsu Pte Ltd
11, Chang Charn Road
#04-01 Shriro House
Tel : 65-62822400
Contact Us for more information.