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| Nov. 27, 2006 10G 850nm XFP Transceiver (Up to 300m transmission) Members of FlexonTM Family Compatible with FDA 21 CFR 1040.10 and 1040.11, Class I RoHS compliance Description FTM-83X0C-X03G is a high performance, cost effective module, which is optimized for 10G Ethernet, supporting data-rate of 10.3125Gbps (10GBASE-SR) or 9.953Gbps (10GBASE-SW), and transmission distance up to 300m on 50m MMF Features Support 10GE application at the data-rate of 9.953Gbps and 10.3125Gbps Up to 300m transmission distance on 50m MMF (2000MHz.km) 850nm VCSEL and PIN receiver XFI electrical interface 2-wire interface for integrated Digital Diagnostic monitoring XFP MSA package with duplex LC connector Hot pluggable Very low EMI and excellent ESD protection +5V, +3.3V power supply Power consumption less than 1.5 W Operating case temperature: 0~+70C (2000MHz.km). The transceiver consists of two sections: The transmitter section incorporates an 850nm VCSEL, driver and re-timer. The receiver section consists of a PIN photodiode integrated with a transimpedance preamplifier (TIA) and CDR. The module is hot pluggable into the 30-pin XFI connector. The high-speed electrical interface is base on low voltage logic, with nominal 100 Ohms differential impedance and AC coupled in the module. The optical output can be disabled by LVTTL logic high-level input of TX_DIS. Loss of signal (RX_LOS) output is provided to indicate the loss of an input optical signal of receiver. The user can access transceiver monitoring and configuration data via the 2-wire XFP Management Interface. This interface uses a single address, A0h, with a memory map divided into a lower and upper area. Basic digital diagnostic (DD) data is held in the lower area while specific data is held in a series of tables in the high memory area. Applications 10GBASE-SR at 10.3125Gbps 10GBASE-SW at 9.953Gbps Other optical links Standard Compatible with XFP MSA Compatible with IEEE 802.3ae-2002 Compatible with FCC 47 CFR Part 15, Class B Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 1 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Regulatory Compliance The transceivers are tested according to American and European product safety and electromagnetic compatibility regulations (See Table 1). For further information regarding regulatory certification, please refer to Fiberxon regulatory specification and safety guidelines, or contact with Fiberxon, Inc. America sales office listed at the end of the documentation. Table 1- Regulatory Compliance Feature Electrostatic Discharge (ESD) to the Electrical Pins Electrostatic Discharge (ESD) to the Duplex LC Receptacle Electromagnetic Interference (EMI) Immunity Laser Eye Safety Component Recognition Standard MIL-STD-883E Method 3015.7 IEC 61000-4-2 GR-1089-CORE FCC Part 15 Class B EN55022 Class B (CISPR 22B) VCCI Class B IEC 61000-4-3 FDA 21CFR 1040.10 and 1040.11 EN60950, EN (IEC) 60825-1,2 UL and CSA Compatible with standards Compatible with Class 1 laser product. UL file E223705 Compatible with standards Performance Class 1(>500 V) Compatible with standards Absolute Maximum Ratings Stress in excess of the maximum absolute ratings can cause permanent damage to the module. Table 2 - Absolute Maximum Ratings Parameter Storage Temperature Supply Voltage Operating Relative Humidity Symbol TS VCC5 VCC3 RH Min. -40 -0.5 -0.5 Max. +85 6.0 4.0 85 Unit C V V % Recommended Operating Conditions Table 3 - Recommended Operating Conditions Parameter Operating Case Temperature Power Supply Voltage Power Supply Current Power Dissipation Data Rate Transmission Distance 2 Symbol TC VCC5 VCC3 ICC5 ICC3 PD 9.953/10.3125 300 Min. 0 4.75 3.13 5.0 3.3 Typical Max. +70 5.25 3.47 20 400 1.5 mA mA W Gbps m 1 Unit C V Notes Note 1: The transmission distance depends on the fiber type. PLS see "Table 52-6" in IEEE 802.3ae. Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 2 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Optical Characteristics Table 4 - Optical Characteristics Parameter Symbol Min. Typical 9.953/ 10.3125 C P0UT ER OMA DP Receiver Operating Data Rate Centre Wavelength Receiver Sensitivity Receiver Sensitivity in OMA Receiver Overload LOS Assert LOS Deassert LOS Hysteresis Receiver Reflectance Notes: 1. 2. 3. 4. The optical power is launched into MMF. Measured with a PRBS 231-1 test pattern @10.3125Gbps. Reference to Table 52-8 of IEEE P802.3ae. Measured with a PRBS 231-1 test pattern @10.3125Gbps, BER10-12. C PIN PIN PIN LOSA LOSD 1 -1.0 -25 -15 -12 4 -12 840 9.953/ 10.3125 860 -9.9 -11.1 Gbps nm dBm dBm dBm dBm dBm dB dB 4 4 4 840 -7.3 3.0 See Note 3 See Note 3 3.9 Compatible with IEEE 802.3ae 860 -1.0 Max. Unit Notes Transmitter Operating Data Rate Centre Wavelength Average Output Power Extinction Ratio Optical Modulation Amplitude Spectral Width Dispersion Penalty Optical Eye Mask Gbps nm dBm dB dBm nm dB 1 2 3 3 Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 3 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Electrical Characteristics Table 5 - Electrical Characteristics Parameter Symbol Min. Typical 9.953/ 10.3125 120 100 9.953/ 10.3125 500 100 2.0 GND 2.4 GND fSCL Vdd1=3.3 0.8 Vdd1=3.3 0.4 400 800 1200 Max. Unit Notes High-speed Signal (CML) Interface Specification Input Data Rate Differential Data Input Amplitude Input Differential Impedance Output Data Rate Differential Date Output Amplitude Output Differential Impedance Low-speed Signal (LVTTL) Interface Specification Input High Voltage Input Low Voltage Output High Voltage Output Low Voltage 2 Wire Serial Interface (LVTTL) Specification Clock Frequency No reference clock needed Notes: 1. Internally AC coupled kHz Reference Clock (PECL) Interface Specification V V V V Gbps mVpp Gbps mVpp 1 1 Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 4 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Management Interface The structure of the memory map is shown in Figure 1, which is accessible over a 2 wire serial interface at the 8-bit address 1010000X (A0h). The normal 256 Byte I2C address space is divided into lower and upper blocks of 128 Bytes. The lower block of 128 Bytes is always directly available and is used for the diagnostics and control function. The monitoring specification is shown in Table 6. Multiple blocks of memories are available in the upper 128 Bytes of the address space. These are individually addressed through a table select Byte which the user enters into a location in the lower address space. Thus, there is a total available address space of 128 * 256 = 32Kbytes in this upper memory space. The contents of Table 01h are list in table 7 below. PLS refer INF-8077i (Revision 4.0) for detailed information. Figure 1, 2-wire Serial Digital Diagnostic Memory Map Table 6 - Monitoring Specification Data Address 96-97 100-101 102-103 104-105 106-107 108-109 Parameter Temperature Bias Current TX Power RX Power VCC5 Voltage VCC3 Voltage Range -10 to +80C 0 to 15mA -9 to 0dBm -15 to 0dBm +4.5V to +5.5V +3.0V to +3.7V Accuracy 3C 10% 2dB 2dB 3% 3% Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 5 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Table 7 - Serial ID Memory Contents (Table 01h) Field Addr. 128 129 130 131-138 139 140 141 142 143 144 145 146 147 148-163 164 165-167 168-183 184-185 186-187 188-189 190 191 192-195 196-211 212-219 220 221 222 223 224-255 Size (Bytes) 1 1 1 8 1 1 1 1 1 1 1 1 1 16 1 3 16 2 2 2 1 1 4 16 8 1 1 1 1 32 Identifier Ext. Identifier Connector Transceiver Encoding BR-Min BR-Max Length (9um)-km Length (E-50um) Length (50um) Length (62.5um) Length (copper) Device Tech Vendor name CDR Support Vendor OUI Vendor PN Vendor rev Wavelength Max Case Temp CC_BASE Power Supply Vendor SN Vendor date code Diagnostic type Enhanced option Aux Monitoring CC EXT Vendor specific 4B 96 14 00 xx xx xx xx xx xx xx xx xx xx xx xx xx xx xx xx 08 60 67 xx 06 10 07 88 00 00 00 00 00 00 00 10 63 6F 00 96 52 21 00 00 46 49 42 45 52 58 4F 4E 20 49 4E 43 2E 20 20 20 F8 00 00 00 46 54 4D 2D 38 33 58 30 43 2D 58 30 33 47 20 20 xx xx 42 68 46 "FTM-83X0C-X03G" (ASC) ASC( "32 61" means 2a revision) 850nm +/- 10nm 70degC Check sum of bytes 128 - 190 1.5W (max), 1.5W (max, power down mode), 20mA(max, +5.0V), 400mA (max, +3.3V) ASC. 850nm VCSEL, PIN Detector "FIBERXON INC. "(ASC) CDR supports 9.953Gbps~11.1Gbps 300m 82m 33m XFP TX Ref Clock Input not Required LC Connector 10GBASE-SR/SW NRZ 9.953Gbps 11.1Gbps Name of Field Hex Description Wavelength Tolerance07 D0 xx xx xx xx xx xx 20 20 Year (2 bytes), Month (2 bytes), Day (2 bytes) No BER Support, Average Power Optional Soft Tx_Disable and P_Down +5.0V and +3.3V Supply Voltage Check sum of bytes 192 - 222 Reserved By Vendor Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 6 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Recommended Host Board Power Supply Circuit Figure 2 shows the recommended host board power supply circuit. Figure 2, Recommended Host Board Power Supply Circuit Recommended Interface Circuit Figure 3 shows the recommended interface circuit. Host Board SerDat Out + XFP Module Z=50 TD + CML SerDat Out - Z=50 TD - 100 CML 100 CML SerDat In + Z=50 RD + SerDat In - Z=50 CML RD REFCLKP Vcc (+3.3V) 4.7K to 10K REFCLKN RX_LOS INTERRUPT SDA SCL MOD_NR MOD_abs TX_DIS MOD_DeSel P_Down/RST 100 Vcc (+3.3V) 10K GND Figure 3, Recommended Interface Circuit Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 7 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Pin Definitions Figure 4 below shows the pin numbering of XFP electrical interface. The pin functions are described in Table 5 with some accompanying notes. Figure 4, Pin View Table 8 - Pin Function Definitions Pin 1 2 3 4 5 6 LVTTL-I LVTTL-O LVTTL-I Logic Symbol GND VEE5 Mod_Desel Interrupt TX_DIS VCC5 Module Ground Optional -5.2V Power Supply (Not implemented) Module De-select; When held low allows the module to respond to 2-wire serial interface Interrupt; Indicates presence of an important condition which can be read over the 2-wire serial interface Transmitter Disable; Turns off transmitter laser output +5V Power Supply Page 8 of 11 Last printed 2/26/2007 10:45:00 AM Name/Description Note 1 2 Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 LVTTL-I CML-O CML-O LVTTL-I/O LVTTL-I/O LVTTL-O LVTTL-O LVTTL-O GND VCC3 VCC3 SCL SDA Mod_Abs Mod_NR RX_LOS GND GND RDRD+ GND VCC2 P_Down/RST Module Ground +3.3V Power Supply +3.3V Power Supply 2-Wire Serial Interface Clock 2-Wire Serial Interface Data Line Indicates Module is not present. Grounded in the Module Module Not Ready; Indicating Module Operational Fault Receiver Loss Of Signal Indicator Module Ground Module Ground Receiver Inverted Data Output Receiver Non-Inverted Data Output Module Ground +1.8V Power Supply (Not implemented). Power down; When high, requires the module to limit power consumption to 1.5W or below. 2-Wire serial interface must be functional in the low power mode. Reset; The falling edge initiates a complete reset of the module including the2-wire serial interface, equivalent to a power cycle. 1 2 2 2 2 2 1 1 1 3 22 23 24 25 26 27 28 29 30 1. 2. 3. 4. CML-I CML-I PECL-I PECL-I VCC2 GND RefCLK+ RefCLKGND GND TDTD+ GND +1.8V Power Supply (Not implemented) Module Ground Not used, internally terminated to 50ohm (100ohm diff). Not used, internally terminated to 50ohm (100ohm diff). Module Ground Module Ground Transmitter Inverted Data Input Transmitter Non-Inverted Data Input Module Ground 3 1 4 4 1 1 1 Module ground pins GND are isolated from the module case and chassis ground within the module. Shall be pulled up with 4.7K-10Kohms to a voltage between 3.15V and 3.45V on the host board. The pins are open within module. Reference Clock is not required. Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 9 of 11 Last printed 2/26/2007 10:45:00 AM 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Mechanical Design Diagram Beige Lever LABEL Figure 5, Mechanical Design Diagram of XFP Ordering information FTM 8 3 X 0 C X 0 3 G Wavelength 8: 850nm Function 3: With CDR Data rate X0: Multi-rate (Optimized for 10GE) Distance 03: 300m Package X: XFP Receptacle C: LC G: RoHS Compliance Part No. FTM-83X0C-X03G Product Description 850nm VCSEL, multi-rate for 10GE, 300m, XFP, RoHS compliance Page 10 of 11 Last printed 2/26/2007 10:45:00 AM Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. 10G 850nm XFP Transceiver Up to 300m transmission Nov. 27, 2006 Related Documents INF-8077i (10 Gigabit Small Form Factor Pluggable Module), Revision 4.0 Obtaining Document You can visit our website: http://www.fiberxon.com Or contact with Fiberxon, Inc. America Sales Office listed at the end of documentation to get the latest documents. Revision History Revision Rev. 1a Rev. 1b Initiate Andy.Xiao Andy.Xiao Review Tonny Yin Tonny Yin Approve Alain.Shang Alain.Shang Subject Initial datasheet 1. Update the LOS Assert / De-assert spec 2. Remove the minimum transmission, and add a note. (c) Copyright Fiberxon Inc. 2006 All Rights Reserved. All information contained in this document is subject to change without notice. The products described in this document are NOT intended for use in implantation or other life support applications where malfunction may result in injury or death to persons. The information contained in this document does not affect or change Fiberxon product specifications or warranties. Nothing in this document shall operate as an express or implied license or indemnity under the intellectual property rights of Fiberxon or third parties. All information contained in this document was obtained in specific environments, and is presented as an illustration. The results obtained in other operating environment may vary. THE INFORMATION CONTAINED IN THIS DOCUMENT IS PROVIDED ON AN "AS IS" BASIS. In no event will Fiberxon be liable for damages arising directly from any use of the information contained in this document. Contact U.S.A. Headquarter: 5201 Great America Parkway, Suite 340 Santa Clara, CA 95054 U. S. A. Tel: 408-562-6288 Fax: 408-562-6289 Or visit our website: http://www.fiberxon.com Fiberxon Proprietary and Confidential, Do Not Copy or Distribute Controlled Electronic Version. 24hrs Obsolete when printed out without authorization. Page 11 of 11 Last printed 2/26/2007 10:45:00 AM Release Date Mar. 28, 2006 Nov.27, 2006 |
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