CONFIDENTIAL Preliminary Technical data sheet 850nm F-Light short distance optical receiver PAGE 1/6 REVISION 1.3 ISSUE 22/12/2015 PART NUMBER FLR-500-IL-B4-001 Features Digital optical receiver Data rate up to 5 Gbps Complies with IEEE Std. 802.3z Gigabit Ethernet 1000 Base-Sx PMD, ARINC 804 and PCI express Controls for better link reliability -40 +85C operating temperature range SMT electrical interface Optimized for short distance and board to board communication Vibration tolerant Low power consumption (~160 mW) Compliant with MIL-STD 810/883 and DO-160D standards for temperature, damp heat, shocks and vibrations Applications Product Description Severe environment interconnects F-Light FLR-500-IL-B4-001 optoelectronic module is an high performance receiver optimized for high data rate short distance Free-space optical (FSO) Sensors interconnects communications. It is protocol independent and can be applied to Gigabit Numerical video transmission Ethernet, Fibre Channel, Infiniband, PCI Express or any specific Board-to-board communications communication application. The F-Light family is designed for Free-space Data communications communication within severe environments and complies with AEEC / ARINC On-board communications 804 transceiver specifications. The FLR-500-IL-B4-001 Free-Space Optical receiver is optimized for high speed DC-coupled serial links operating from 0.1 to 5 Gbps. The module is 3.3 Volts single supplied for low power consumption. The receiver is based on high speed GaAs photodiode and high performances BiCMOS transimpedance (TIA) and limiting (LA) amplifiers. The device has to be coupled with a Flight transmitter module FLT-500-xx-yy to set a full free space optical link. This document contains proprietary information and such information shall not be disclosed to any third party for any purpose whatsoever or used for manufacturing purposes without prior written agreement from Radiall. The data defined in this document are given as an indication, in the effort to improve our products we reserve the right to make any changes judged necessary. CONFIDENTIAL Preliminary Technical data sheet 850nm F-Light short distance optical receiver PAGE 2/6 REVISION 1.3 ISSUE 22/12/2015 PART NUMBER FLR-500-IL-B4-001 Absolute maximum rating Stress beyond these values may cause permanent damage to the device. Table 1 - Absolute Maximum Ratings Parameter Symbol Min Max Unit Notes Storage temperature T -55 +125 C - st Soldering temperature T - 260 C 1,2 sol Soldering time t - 30 s 1,2 sol Supply voltage V -0.3 +4.0 V 3 CC Signal pins voltage range V V -0.3 V +0.3 V - pin EE CC Junction temperature TB - 130 C - jB ESD resistance voltage ESD - 500 V 4 Notes: 1: MSL level 2 (J-STD-020D) 2 : compliant with ROHS solder reflow profile standard IPC/JEDEC J-STD-020D 3: V is negative supply, V is positive supply EE CC 4: ESD resistance based on HBM according to JESD22-A114-B Module Optical and Electrical Specifications Table 2 - General specifications VCC=3.3V, VEE=GND=0V Parameter Symbol Min Typ. Max Unit Notes Supply voltage V 3.0 3.3 3.6 V - CC Supply voltage noise N - - 100 mV 1 VCC Supply current I - 30 35 mA - ccRx Data rate B 0.1 - 5 Gbps - Operating temperature T -40 - +85 C - op Notes: For noise frequencies < 5MHz. Table 3 - Electrical Specification- High Speed channels B= 5 Gbps, VCC=3.3V, VEE=GND=0V, Temp= -40:+85C Parameter Symbol Min Typ. Max Unit Notes Differential output voltage V 200 400 700 mV - OUTdif Output impedance (differential) Z 90 100 110 - out Output CML drive current I - 12 - mA - o Total jitter receiver T - 60 150 ps - JRx , R Rx F Rise/Fall time - 80 150 ps 1 Rx Differential peak to peak noise output when - - 10 mV - squelched Notes: 1. Measured at 20% / 80% levels Table 4 - Electrical Specification- I/O CMOS B= 5 Gbps, VCC=3.3V, VEE=GND=0V, Temp= -40:+85C Parameter Symbol Min Typ. Max Unit Notes - Digital inputs voltage High V 2 - V B+ 0.3 V INhigh CC Low V V - 0.3 - 0.8 V - INlow EE Digital input current I - - +/-5 A - IN Digital outputs voltage High V V -0.2 - - V - OH CC Low V - - 0.2 V - OL Digital output currents I +/- 2 - - mA - Out This document contains proprietary information and such information shall not be disclosed to any third party for any purpose whatsoever or used for manufacturing purposes without prior written agreement from Radiall. The data defined in this document are given as an indication, in the effort to improve our products we reserve the right to make any changes judged necessary.