Adtran has unveiled two products before the OFC show in San Francisco taking place at the end of the month.
One is a 50 gigabit-per second (Gbps) SFP56 optical transceiver that uses 4-level pulse-amplitude modulation (PAM-4) for 5G front-haul and enhanced broadband applications.
The second product is the FSP 3000 IP OLS, a compact open line system (OLS) designed for point-to-point links between sites 120km apart.
The OLS has been developed to simplify the setting up of dense wavelength division multiplexing (DWDM) optical links.
Enhancing broadband
Adtran has been developing a range of transceiver products to address specific requirements in the access-aggregation marketplace.
These include the MicroMux Edge Bidi, a QSFP+ pluggable module that supports 4x10 gigabit signals over 40km for mobile backhaul and enterprise wireless applications.
Adtran also offers the AccessWave25, a 25-gigabit tunable wavelength transceiver in an SFP28 form factor with a reach of 40km.
The pluggable module is used to link remote physical layer devices (RPDs) in cable operators' networks. Cable operators are upgrading their infrastructure from 10 gigabits to 25 gigabits to support DOCSIS 4.0.
"You can argue if DOCSIS 4.0 is here or coming at the year-end,” says Saeid Aramideh, vice president of business development, optical engines business unit, at Adtran. "But there is no argument about the need for 25-gigabit uplinks for the cable MSO market."
Now Adtran is announcing the AccessWave50, a 50-gigabit SFP56 optical module for fronthaul, part of the radio access network (RAN) and for other developments driving traffic such as smart homes, Internet of Things, and Smart Cities.
Aramideh refers to these applications as driving ‘enhanced’ broadband networks, requiring the upgrading of 25 gigabit links to 50- and even 100-gigabit ones.
Front-haul networks
For mobile, telco operators and RAN equipment makers are working with optical component makers to drive innovation in pluggables for emerging architectures such as enhanced 5G and 6G, says Aramideh.
In mobile networks, the front-haul network carries radio signals using the CPRI (common public radio interface) or enhanced CPRI protocols between the remote radio heads and the baseband units.
For 5G front-haul, the modules used are mainly at 10 gigabits-per-second (Gbps) with some 25-gigabit modules deployed. Adtran’s AccessWave50 addresses the next speed hike.
Source: Adtran
Adtran has designed the AccessWave50 using proprietary signal-shaping and distance optimisation techniques along with 4-level pulse amplitude modulation (PAM-4) to achieve the 50Gbps line rate.
"PAM-4 is proving itself to be a cost-performance-optimised technology and give you spectral efficiency as you go to higher data rates," says Aramideh. "Of course, it's not coherent optics, but you don't need coherent for all applications."
AccessWave50 uses a tunable laser and has a 15km, not 40km reach, but that is sufficient, says Aramideh, since front-haul networks are latency-constrained. The SFP56 module consumes 2.5W only.
Compact networking
Adtran has also unveiled its latest open line system (OLS) for C-band coherent transceivers.
The company has been providing bespoke OLS systems for hyperscalers. ADVA, the company Adtran acquired in 2022, provided Microsoft with the OLS that, working with the original ColorZ modules from Marvell, enabled 100 gigabit PAM-4 transmissions over 80km links.
Source: Adtran
Adtran also provides an OLS for data centre interconnects using 400ZR coherent modules for reaches of 120km.
The latest FSP 3000 IP OLS platform is a compact one-rack (1RU) high box that supports eight wavelengths over 120km.
The platform also includes an OTDR (optical time domain reflectometer) for fibre diagnostics.
The OLS can be used with 400-gigabit, 800-gigabit, and ultimately 1.6 terabit coherent pluggable modules once available.
The OLS is also designed for telecom metro interconnect networks. “Telcos, in response to AI, are also looking for OLS technology tailored to coherent transceivers,” says Stephan Rettenberger, senior vice president of marketing and corporate communications at Adtran.
A chief design challenge has been to fit the OLS into a 1 RU form factor, requiring integration and packaging work. The OLS has also been designed to be set up and operated straightforwardly.
The platform is scalable: two racks stacked double the wavelength counts to 16.
The FSP 3000 IP OLS product is already in the hands of one telco customer, says Rettenberger.