MiniPOD AFBR-811VxyZ, AFBR-821VxyZ 10 Gbps/Channel Twelve Channel, Parallel Fiber Optics Modules Product Brief Description Features The AFBR-811VxyZ Twelve Channel, Pluggable, Parallel Compliant to IEEE 802.3ba 100GbE (100GBASE-SR10 Fiber Optics Transmitter and AFBR-821VxyZ Twelve and nPPI) per lane Channel, Pluggable, Parallel Fiber Optics Receiver are high Compliant to 12QDR Infiniband performance fiber optics modules for short-range parallel Operates at 10.3125 Gbps per channel with 64b/66b multi-lane data communication and interconnect applica- encoded data for 100GbE application and at 10 Gbps tions. The high density optical modules are designed to with 8b/10b encoded data for IB-QDR application operate over multimode fiber systems using a nominal wavelength of 850 nm. High Aggregate bandwidth: 120 Gbps per module High density footprint: 21.95 mm 18.62 mm size Avagos MiniPOD solution offers system designers two module package options to optimize their cable manage- Two package options to optimize internal cable ment and board layout. AFBR-811RxyZ Tx/AFBR-821RxyZ management and system layout Rx is used with round multi-lane cable assemblies for Separate transmitter and receiver modules applications requiring multiple turns of the jumper cable 850 nm VCSEL array in transmitter PIN array in receiver inside the chassis. AFBR-811FxyZ Tx/AFBR-821FxyZ Rx is used with flat ribbon cable assemblies, allowing dense Links up to 150 m at 10.3125 Gbps with OM4 4700 tiling of the modules as the jumper cables can be thread MHzkm 50 mm MMF under the dust-cap of the next module. This top mounted Optical Interface: PRIZM LightTurn optical turn 112 optical connection maximizes board layout density by ribbon fiber connector eliminating board space lost to the optical connector and Pluggable electrical interface: 99 MEG-Array for ease strain relief. of design and manufacturability The electrical interface uses a 99 MEG-Array connector Low Power consumption: 3.0 W Max per Transmitter/ with 1.27 mm pitch Receiver pair (0 C to 70 C operating range) Figure 1. MiniPOD Transmitter and Receiver Modules with a) Round Cable and b) Flat Cable: Figure 2. MiniPOD Transmitter and Receiver shown with and without dust covers (White = Tx, Black = Rx). flat ribbon cable modules in a tiled arrangement example. Part Number Ordering Options Transmitter Base Part Number AFBR-811FxyZ Modules for use with Flat Ribbon Jumper Cable Receiver Base Part Number AFBR-821FxyZ Transmitter Base Part Number AFBR-811RxyZ Modules for use with Round Jumper Cable Receiver Base Part Number AFBR-821RxyZ Where: 81 = Transmitter 82 = Receiver F/R: R = module package for use with round cable F = module package for use with Flat ribbon cable V: R= module package for use with round cable F = module package for use with Flat ribbon cable x: N = No Heat Sink, H = Pin Clip-on Heat Sink attached Y: 1 = 100m Key Product Parameters The Avago Technologies MiniPOD modules operate at 850 nm and are compliant to the Multi-mode Fiber optical specs in clause 86 and relevant electrical specs in annex 86A of the IEEE 802.3ba specifications. Parameter Value Units Notes Data rate per lane 10.3125 Gbps As per 802.3ba: 100GBASE-SR10 and nPPI specifications Number of operational lanes 12 100GbE operation utilizes the middle ten lanes (Rx and Tx) of the 12 physically defined lanes Link Length 100 m OM3, 2000 MHzMHzkm 50 mm MMF 150 m OM4, 4700 MHzkm 50 mm MMF Operating Temperature Range 0-70 C Case Temperature Power Supply Voltage 3.3 and 2.5 V Management Interface Two-Wire Serial Compatible with industry standard two-wire serial protocol scaled for 1.2 volt LVCMOS. It can also tolerate 3.3V LVTTL. Laser Output Power Class 3R (Class 1M Without optical connector. at Fiber Output) Electrical Interface MEG-Array 1.27mm pitch and 4mm contact mate height Module Dimensions 18.6 x 22 x 14.5 mm Flat Ribbon Cable Housing 18.6 x 22 x 15.6 mm Round Ribbon Cable Housing Laser Safety Notice * A Class 3R laser is considered safe if handled carefully, with restricted beam viewing. With a class 3R laser the maximum permissible exposure can be exceeded, but with a low risk of injury. 2