Features Applications 10 Gigabit Ethernet (10.3125Gbps) 10 Gigabit Fiber Channel (10.51875Gbps) SFP+ Type DWDM Dual LC Transceiver EML Laser PIN Photo Detector 40Km transmission with SMF 3.3V dual power supply Supply current 350mA (typical) Compliant with SFP+ MSA Compliant with IEEE 802.3ae Hot pluggable Serial ID information support Digital diagnostic functions Compliant with RoHS Compliant with UL & TUV Page 1 of 10
Ordering Information Form Factor Date Rate MZDia Distance Wavelength (nm) Frequency (THz) TX Power (dbm) RX Sensitivity (BOL 9.95G) (dbm) Voltage (V) Coupling Signal Detect DDM Temperature (Y/N) ( C) Part Number SFP+ Dual LC 10G SMF 40km 1563.86 191.7-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD17EDMA0609 SFP+ Dual LC 10G SMF 40km 1563.05 191.8-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD18EDMA0609 SFP+ Dual LC 10G SMF 40km 1562.23 191.9-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD19EDMA0609 SFP+ Dual LC 10G SMF 40km 1561.42 192.0-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD20EDMA0609 SFP+ Dual LC 10G SMF 40km 1560.61 192.1-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD21EDMA0609 SFP+ Dual LC 10G SMF 40km 1559.79 192.2-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD22EDMA0609 SFP+ Dual LC 10G SMF 40km 1558.98 192.3-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD23EDMA0609 SFP+ Dual LC 10G SMF 40km 1558.17 192.4-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD24EDMA0609 SFP+ Dual LC 10G SMF 40km 1557.36 192.5-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD25EDMA0609 SFP+ Dual LC 10G SMF 40km 1556.55 192.6-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD26EDMA0609 SFP+ Dual LC 10G SMF 40km 1555.75 192.7-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD27EDMA0609 SFP+ Dual LC 10G SMF 40km 1554.94 192.8-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD28EDMA0609 SFP+ Dual LC 10G SMF 40km 1554.13 192.9-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD29EDMA0609 SFP+ Dual LC 10G SMF 40km 1553.33 193.0-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD30EDMA0609 SFP+ Dual LC 10G SMF 40km 1552.52 193.1-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD31EDMA0609 SFP+ Dual LC 10G SMF 40km 1551.72 193.2-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD32EDMA0609 SFP+ Dual LC 10G SMF 40km 1550.92 193.3-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD33EDMA0609 SFP+ Dual LC 10G SMF 40km 1550.12 193.4-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD34EDMA0609 SFP+ Dual LC 10G SMF 40km 1549.32 193.5-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD35EDMA0609 SFP+ Dual LC 10G SMF 40km 1548.51 193.6-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD36EDMA0609 SFP+ Dual LC 10G SMF 40km 1547.72 193.7-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD37EDMA0609 SFP+ Dual LC 10G SMF 40km 1546.92 193.8-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD38EDMA0609 SFP+ Dual LC 10G SMF 40km 1546.12 193.9-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD39EDMA0609 SFP+ Dual LC 10G SMF 40km 1545.32 194.0-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD40EDMA0609 SFP+ Dual LC 10G SMF 40km 1544.53 194.1-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD41EDMA0609 SFP+ Dual LC 10G SMF 40km 1543.73 194.2-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD42EDMA0609 SFP+ Dual LC 10G SMF 40km 1542.94 194.3-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD43EDMA0609 SFP+ Dual LC 10G SMF 40km 1542.14 194.4-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD44EDMA0609 SFP+ Dual LC 10G SMF 40km 1541.35 194.5-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD45EDMA0609 SFP+ Dual LC 10G SMF 40km 1540.56 194.6-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD46EDMA0609 SFP+ Dual LC 10G SMF 40km 1539.77 194.7-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD47EDMA0609 SFP+ Dual LC 10G SMF 40km 1538.98 194.8-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD48EDMA0609 SFP+ Dual LC 10G SMF 40km 1538.19 194.9-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD49EDMA0609 SFP+ Dual LC 10G SMF 40km 1537.40 195.0-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD50EDMA0609 SFP+ Dual LC 10G SMF 40km 1536.61 195.1-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD51EDMA0609 SFP+ Dual LC 10G SMF 40km 1535.82 195.2-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD52EDMA0609 SFP+ Dual LC 10G SMF 40km 1535.04 195.3-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD53EDMA0609 SFP+ Dual LC 10G SMF 40km 1534.25 195.4-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD54EDMA0609 SFP+ Dual LC 10G SMF 40km 1533.47 195.5-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD55EDMA0609 SFP+ Dual LC 10G SMF 40km 1532.68 195.6-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD56EDMA0609 SFP+ Dual LC 10G SMF 40km 1531.90 195.7-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD57EDMA0609 SFP+ Dual LC 10G SMF 40km 1531.12 195.8-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD58EDMA0609 SFP+ Dual LC 10G SMF 40km 1530.33 195.9-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD59EDMA0609 SFP+ Dual LC 10G SMF 40km 1529.55 196.0-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD60EDMA0609 SFP+ Dual LC 10G SMF 40km 1528.77 196.1-1 ~ 3 <-14.1 3.3 AC/AC LVTTL Y -5 ~ +70 A7ELXD61EDMA0609 Page 2 of 10
Absolute Maximum Ratings Parameter Symbol Conditions Min Max Unit Storage Temperature T S -- -40 +85 C Storage Relative Humidity RH Non condensing 0 85 % Supply Voltage # 3.3 V CC -- 0 4 V Recommended Operating Conditions Parameter Symbol Conditions Min Typ Max Unit Operating Temperature (Case) T C -- -5 -- 70 C Supply Voltage V CC -- 3.13 3.3 3.47 V Supply Current I CC -- -- 350 500 ma Data Rate DR -- 9.95 / 11.1 Gbps Electrical Characteristics Parameter Symbol Conditions Min Typ Max Unit Transmitter Differential Input Impedance R DI -- -- 100 -- Ohm Differential Input Voltage V DI AC-Coupled, peak to peak 0.12 -- 0.82 V Tx Disable Iutput-High V FOH -- 2.0 -- V CC V Tx Disable Iutput-Low V FOL -- GND -- GND+0.8 V Receiver Differential Output Impedance R DO -- -- 100 -- Ohm Differential Output Voltage V DO AC-Coupled, peak to peak 0.34 0.65 0.85 V Rx LOS Output-High V LOSH -- Vcc-0.5 --- Vcc V Rx LOS Output-Low V LOSL -- GND --- GND+0.5 V RX data raise/fall time Tr/Tf -- -- -- 0.038 ns Optical Characteristics Parameter Symbol Conditions Min Typ Max Unit Transmitter Optical Center Wavelength X = specified ITU center λc @End of Life wavelength X-100 X X+100 pm Optical Center Wavelength Y = specified BOL center λc @ BOL Offset wavelength Y-25 Y Y+25 pm Coupling into a 9/125um SMF Optical Output Power P o (BOL > 1) -1 3 dbm Side Mode Suppression Ratio SMSR -- 30 -- -- db Optical Extinction Ratio ER -- 3.0 -- -- db Transmitter and Dispersion Penalty TDP 800ps/nm 3.0 db Receiver Operating Wavelength λ -- 1260 -- 1600 nm Receiver Overload P INMAX -- -1 -- -- dbm Receiver Sensitivity (OMA) @ 10.3 Gb/s R SENS1 -- -- -- -14.1 dbm Rx LOS Assert P A -- -28 -- -- dbm Rx LOS De-Assert P D -- -- -- -19 dbm Rx LOS Hysteresis P A-P D -- 0.5 -- -- db Receiver Reflectance Rrx -- -- -- -26 db 1. Measured with PRBS 2 31 1 at 10-12 BER, NRZ. Page 3 of 10
Mechanical Design Diagram Page 4 of 10
EEPROM Serial ID Memory Contents (A0h) AOI Add Name of field Description ACSII HEX 0 Identifier 03:SFP or SFP Plus Transceiver 03 1 Ext. Identifier SFP Transceiver 04 2 Connector 07:LC 07 3 10G Ethernet 80:10G Base-ER 80 4 SONET/SDH 00 5 SONET/SDH 00 6 Ethernet 00 Transceiver 7 Fiber Channel 00 8 Fiber Channel 00 9 Fiber Channel 00 10 Fiber Channel 00 11 Encoding 01:8B10B, 05:SONET, 06:64B/66B, 06 12 BR, Nominal 100Mbps/unit -> HEX (67:10.3125G) 67 13 Rate Identifier Rate Select 00 14 Length(9um, km) 1km /unit -> HEX (28:40KM) 28 15 Length (9um), OM2 100m /unit -> HEX (FF:over 25500M) FF 16 Length (50um), OM1 10m /unit -> HEX 00 17 Length (62.5um) 10m /unit -> HEX 00 18 Length (Copper) 1m /unit -> HEX 00 19 Length (50 um), OM3 10m /unit -> HEX 00 20 A 41 21 O 4F 22 I 49 23 20 24 20 25 20 26 20 27 Vendor name SFP Vendor Name (ASCII) 20 28 20 29 20 30 20 31 20 32 20 33 20 34 20 Page 5 of 10
35 20 36 Reserved Reserved 00 37 00 38 Vendor OUI SFP Vendor IEEE company ID, No ID set "00" 00 39 00 40 A 41 41 7 37 42 E 45 43 L 4C 44 X 58 45 D 44 46 x xx 47 x xx Vendor PN SFP Vendor Part Number (ASCII) 48 E 45 49 D 44 50 M 4D 51 A 41 52 0 30 53 6 36 54 0 30 55 9 39 56 A 41 57 20 Vendor rev Vendor Revision level (ASCII) 58 20 59 20 60 xx Wavelength 1nm /unit -> HEX 61 xx 62 Wavelength 0.01nm /unit -> HEX xx 63 CC_BASE Check Sum 0 to 62 byte xx 64 65 Options 18:TX-DIS,TX_Fault 1A:TX-DIS,TX_Fault,RX-LOS 66 BR, max 1% /unit 00 67 BR, min 1% /unit 00 68 69 XX 70 Vendor SN Vendor SN (ASCII) XX 71 XX 72 XX 00 1A XX Page 6 of 10
73 XX 74 XX 75 XX 76 XX 77 XX 78 XX 79 XX 80 XX 81 XX 82 XX 83 XX 84 XX Year (ASCII) 85 XX 86 XX Month (ASCII) 87 XX Date code 88 XX Day (ASCII) 89 XX 90 20 Blank 91 20 92 Diagnostic Monitoring Type 93 Enhanced Options 58:W/I DDM(Ext_Cal), 68:W/I DDM(Int_Cal) E0:A/W, Tx_Dis, Tx_fault F0:A/W, Tx_Dis, Tx_fault, Rx_LOS B0:A/W, Tx_fault, Rx_LOS 94 SFF-8472 Compliance 01:9.3, 02:9.5, 03:10.2, 04:10.4 04 95 CC_EXT Check Sum 64 to 94 byte XX 96 102 00 Read-only 103 00 68 B0 Read-only 00 97 00 98 00 99 00 100 00 101 00 104 00 105 00 106 00 107 00 108 00 109 00 Page 7 of 10
110 00 111 00 112 00 113 00 114 00 115 00 116 00 117 00 118 00 119 00 120 00 121 00 122 00 123 00 124 00 125 00 126 00 127 00 Page 8 of 10
Label Product P/N Product Spec 10G SMF CHxx Unit: mm Note: xx = Channel number Page 9 of 10
Regulatory Compliance Item Electromagnetic Interference (EMI) Standard FCC Part 15 Class B EN55022 Class B (CISPR 22B) VCCI Class B MIL-STD-883E Method 3015.7 Electrostatic Discharge to the Electrical Pins (ESD) Electrostatic Discharge to the Receptacle (ESD) IEC 61000-4-2 RoHS 2011/65/EU Laser Eye Safety FDA 21CFR 1040.10 and 1040.11 Component Recognition UL and TUV Laser Safety Information All versions of this laser are Class 1 laser products per IEC1/EN2 60825-1:2007. Users should observe safety precautions such as those recommended by ANSI 3 Z136.1-2000, ANSI Z36.2-1997 and IEC 60825-1:2007. This product conforms to FDA (CDRH) 21 CFR 1040.10 and 1040.11 except for deviations of laser safety class designation pursuant to 'Laser Notice No.50', dated June 24, 2007 Product labeling: Class 1 Laser Product Compliance with 21 CFR 1040.10 and 1040.11 If labeling is not affixed to the module due to size constraints; then rather, labeling is placed on the outside of the shipping box. This product is not shipped with a power supply. Caution: use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. Certifications UL 60950-1 (E243407) TUV EN60950-1/A12:2011, EN 60825-1, EN 60825-2 Documentation is available upon request. (1) IEC is a registered trademark of the International Electrotechnical Commission (2) Within Europe the IEC standard has been adopted as a European Normative standard known as EN 60825, and each European country will have its own version of this standard, for example, the British Standards version known as BS EN 60825. There can be small differences between the different countries versions of EN 60825, and these are in part caused by the process of translating the standard into the native language of that country. (3) ANSI is a registered trademark of the American National Standards Institute Note : All information contained in this document is subject to change without notice. Page 10 of 10