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| COMMUNICATIONS MODUlES & SUBSySTEMS Multiprotocol XFP Optical Transceiver--1550 nm for up to 40 km Reach JXP Series Key Benefits *CompliantwithSONETOC-192IR-2,10GEthernetand10G FibreChannel10GBase-ER,andcorrespondingForward ErrorCorrection(FEC)ratesfrom9.95Gbpsto11.35Gbps * 1550nmopticalsignalsforupto40kmreach *RoHS6/6compliant *Industrialoperatingcasetemperaturerangefrom -40Cto85C *Lowpowerconsumption(<3.5Wmax) *ExcellentEMIperformance *DigitalDiagnosticMonitoringsupport *XFISystemloopbackimplemented Applications *Wideareanetwork(WAN) *Localareanetwork(LAN) *Storageareanetwork(SAN) *SONETOC-192applications *SDHSTM-64applications *Ethernetswitchesandapplications *FibreChannelswitchesandapplications The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver is a fully duplex, integrated fiber optic transceiver that provides a high-speed serial link at signaling rates from 9.95 Gbps to 11.35 Gbps. The module complies with the 10 Gigabit small form factor pluggable (XFP) multisource agreement (MSA). The 1550 nm XFP complies with the Telcordia GR-253-CORE (SONET) OC-192 IR2 and ITU-T G.691 (SDH) STM-64 S-64.2b for 40 km reach; and IEEE 802.3-2005 Clause 52 (Ethernet) 10GBase-ER and 10 G Fibre Channel (FC) for 40 km reach. The JDSU 10 Gbps multiprotocol XFP optical transceiver integrates the receive and transmit path on one module. On the transmit side, the 10 Gbps serial data stream is recovered, retimed, and passed to a laser driver. The laser drivers biases and modulates a 1550 nm cooled external modulated laser (EML), enabling data transmission over single-mode fiber through an industry-standard LC connector. On the receive side, the 10 Gbps optical data stream is recovered from a PIN photodetector/transimpedance amplifier, retimed, and passed to an output driver. This module features a hot-pluggable XFI-compliant electrical interface. Compliance *TelcordiaGR-253-COREstandard *ITU-TG.691standard *IEEE802.3-2005Clause52standard *10GFCstandard *Class1LaserSafety *TestedinaccordancewithTelcordia GR-468 NORTH AMERICA: 800 498-JDSU (5378) wORlDwIDE: +800 5378-JDSU wEBSITE: www.jdsu.com MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 2 Section 1 Functional Description The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver is a fully duplexed, serial electric, serial optical device with both transmit and receive functions contained in a single module that provides a high-speed serial link at signaling rates from 9.95 Gbps to 11.35 Gbps. It is designed to be compliant with Telcordia GR-253-CORE OC-192 IR-2 for 40 km reach (SONET), ITU-T G.691 STM-64 S-64.2b for 40 km reach (SDH), IEEE 802.3-2005 Clause 52 10GBASE-ER and 10 GBASE-EWfor40kmreach(Ethernet)and10GFCfor40kmreach(FibreChannel). The transceiver is also fully compliant with the 10 Gigabit small form factor XFP pluggable module MSA INF8077i Rev. 4.5. A block diagram of the JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver is shown in Figure 1 below. The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver locks to data without the requirement of a reference clock. The reference clock inputs have an internal 100 differential line-to-line termination. It has several low-speed interface connections including a two-wire serial interface. These connections include: module not ready (Mod_NR), module deselect (Mod_DeSel), Interrupt, transmitter disable (TX_DIS), module absent (Mod_ABS), receive loss (RX_LOS), and power down/reset (P_Down/RST). The XFP transceiver also supports XFI loopback. In this mode, data input on the electrical Tx pins of the XFP module is retimed and is redirected to the Rx pins of the module. This facilitates system side test and debug. Transmitter The transmitter path converts serial NRZ electrical data from line rate of 9.95 Gbps to 11.35 Gbps to a standard compliant optical signal. The transmitter accepts a 100 differential 120 mV peak-to-peak to 820 mV peak-to-peak 10 Gbps CML electrical signal on TD- and TD+ pins. Inside the module, the differential signals pass through a signal conditioner with equalization that compensates for losses and deterministic jitter present on the input data stream. The transmit CDR function generates a clock that is at the same frequency as the incoming data bit rate of the electrical data input. The clock is phase aligned by a phase locked loop (PLL) that samples the data in the center of the data eye pattern. The CDR function does not require a reference clock to "lock" to incoming data. The CDR contains a lock detect circuit that indicates successful locking of the PLL onto the incoming data. The output of the Tx signal conditioner is input to the laser driver circuit which transforms the small swing digital voltage to an output modulation that drives a cooled electroabsorption (EA) modulator. The optical signal is engineered to meet the SONET/SDH, 10 Gigabit Ethernet, 10 G Fibre Channel and corresponding forward error correction (FEC) rates specifications. Closed-loop control of the transmitted laser power and modulation swing over temperature and voltage variations is provided. The laser is coupled to single-mode optical fiber through an industry standard LC optical connector. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 3 Receiver The receiver converts incoming DC balanced serial NRZ optical data from line rate of 9.95 Gbps to 11.35 Gbps into serial XFI electrical data. Light is coupled to a PIN photodetector from single-mode optical fiber through an industry standard LC optical connector. The electrical current from the PIN photodetector is converted to a voltage in a high-gain transimpedance amplifier. The amplified signal is passed to a signal conditioning IC that provides clock and data recovery. The receive CDR function generates a clock that is at the same frequency as the incoming data bit rate of the optical data input. The clock is phase aligned by a PLL (Phase Locked Loop) that samples the data in the center of the data eye pattern. The CDR function does not require a reference clock to "lock" to incoming data. The CDR contains a lock detect circuit that indicates successful locking of the PLL onto the incoming data. Loss of signal, and signal lock detection is included in the receive circuitry that is reflected in the Mod_NR status pin. The recovered data is output on the RD+ and RD- pins as a 100 340 mV peakto-peak CML signal. The output signal meets the XFP MSA requirements. Vcc3 Vcc5 Vcc2 Vee5 No Connect GND Transceiver Ground Power Supply Sequence / In Rush Control Circuit ROSA RDRD+ CDR / Limiting Amplifier TIA SCL SDA MicroProcessor TDTD+ RX_LOS MOD_NR INTERRUPT MOD_DESEL CDR / Equalizer Laser Control Circuit TOSA Vcc3 Vcc3 GND Vcc3 REFCLK+ REFCLKTX_DIS PDOWN/RST Figure 1 MOD_ABS JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver functional block diagram MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 4 low-speed Signaling Low-speed signaling is based on low voltage TTL (LVTTL) operating at a nominal voltage of 3.3 V. SCL/SDA: Two-wire serial interface clock and data line. Hosts should use a pull-up resistor connected to Vcc 3.3 V on the two-wire interface SCL (clock), SDA (data), and all low speed outputs. Mod_NR:Outputpin.Whenassertedhighindicatesthatthemodulehasdetecteda condition that renders Tx and or Rx data invalid. Mod_DeSel:Inputpin.Whenheldlowbythehostthemodulerespondstotwo-wire serialcommunicationcommands.Whenhighthemoduledoesnotrespondtoor acknowledge any two-wire interface communication from the host. Interrupt:Outputpin.Whenlowindicatespossiblemoduleoperationalfaultora status critical to the host system. TX_DIS:Inputpin.Whenassertedhighthetransmitteroutputisturnedoff. Mod_ABS: Output pin. Asserted high when the XFP module is absent and is pulled low when the XFP module is inserted. RX_LOS: Output pin. Asserted high when insufficient optical power for reliable signal reception is received. P_Down/RST: Multifunction input pin. The module can be powered down or reset by pulling the low-speed P-Down pin high. In power down mode no data is transmitted on the optical Tx or the electrical Rx path. The reset pulse is generated on the falling edge of the P-Down signal. Following reset, the internal PLL's must reacquire lock and will temporarily indicate a Mod_NR failure until the PLL's reacquire lock. Section 2 Application Schematics Recommended MSA connections to the JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver are shown in Figure 2 on page 5. Power supply filtering is recommended for the JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver. To limit wide band noise power, the host system and module shall each meet a maximum of 2 percent peak-to-peak noise when measured with a 1 MHz low pass filter. In addition, the host system and the module shall each meet a maximum of 3 percent peak-to-peak noise when measured with a filter from 1 MHz-10 MHz. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 5 POWER INPUT P_Down/RST Mod_DeSel OUTPUT SCL/SDA Mod_Abs Mod_NR 2 2 TD +/RD +/- 5V 2 XFP Module ROSA CDR System Loopback TIA uController LC CDR Laser Driver LC TOSA Figure 2 Application schematics for the JDSU 10 Gbps 1550 nm XFP optical transceiver Section 3 Specifications Technical specifications related to the JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver includes: *Section3.1 PinFunctionDefinitions *Section3.2 XFP/XFIReferenceModelCompliancePoints *Section3.3 AbsoluteMaximumRatings *Section3.4 OperatingConditions *Section3.5 ElectricalCharacteristics *Section3.6 JitterSpecifications *Section3.7 TimingRequirementofControlandStatusI/O *Section3.8 XFPTwo-wireInterfaceProtocolandManagementInterface *Section3.9 OpticalTransmitterCharacteristics *Section3.10 OpticalReceiverCharacteristics *Section3.11 RegulatoryCompliance *Section3.12 PCBLayout *Section3.13 ModuleOutline *Section3.14 Connectors RX_LOS Interrupt +3.3 V GND TX_DIS MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 6 3.1 Pin Function Definitions 16 17 18 19 20 21 GND RDRD+ GND VCC2 P_Down/RST VCC2 GND RefCLK+ RefCLKGND GND TDTD+ GND GND RX_LOS Mod_NR Mod_ASB SDA SCL VCC3 VCC3 GND VCC5 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 22 23 24 25 26 27 28 29 30 _______ Interrupt Interupt Mod_DeSel VEE5 GND TX_DIS TX_DIS Figure 3 XFP optical transceiver pin-out on host board Vcc 10 k Receiver (Tx Fault) CMOS, TTL, or Open Collector Driver 1 VeeT VeeT 20 Toward Bezel Toward ASIC 2 Tx Fault TD- 19 MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 7 Table 1 XFP Optical Transceiver Pin Descriptions Pin Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Type Name GND1 VEE5 Mod_Desel Interrupt2 TX_DIS VCC5 GND1 VCC3 VCC3 SCL2 SDA2 Mod_Abs2 Mod_NR2 RX_LOS2 GND1 GND1 RDRD+ GND1 VCC2 P_Down/RST Description Module Ground Not used; may be left unconnected (Optional -5.2 V Power Supply) ModuleDe-select;Whenheldlowallowsthemoduleto respond to 2-wire serial interface commands Interrupt; Indicates presence of an important condition which can be read over the serial 2-wire interface Transmitter Disable; Transmitter Laser Source Turned Off +5 V Power Supply Module Ground +3.3 V Power Supply +3.3 V Power Supply Two-wire Interface Clock Two-wire 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 Noninverted Data Output Module Ground +1.8 V Power Supply (not used) Powerdown;Whenhigh,themodulelimitspowerconsumption to1.5Worbelow.Serialinterfaceisfunctionalinthelowpowermode. Reset; The falling edge initiates a complete reset of the module including the serial interface, equivalent to a power cycle. +1.8 V Power Supply (not used) Module Ground Reference Clock Noninverted Input (not used) Reference Clock Inverted Input (not used) Module Ground Module Ground Transmitter Inverted Data Input Transmitter Non-inverted Data Input Module Ground LVTTL-I LVTTL-O LVTTL-I LVTTL-I LVTTL-I/O LVTTL-O LVTTL-O LVTTL-O CML-O CML-O LVTTL-I 22 23 24 25 26 27 28 29 30 PECL-I PECL-I CML-I CML-I VCC2 GND1 RefCLK+ RefCLKGND1 GND1 TDTD+ GND1 1. Module ground pins (GND) are isolated from the module case and chassis ground within the module 2. Shall be pulled up with 4.7 k - 10 k to a voltage between 3.15 V and 3.45 V on the host board MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 8 3.2 XFP/XFI Reference Model Compliance Points D ASIC/ SERDES A C' Connector C RX XFP Module TX B B' Figure 4 XFP optical transceiver model compliance points 3.3 Absolute Maximum Ratings Parameter Storage temperature Operating case temperature Relative humidity Static electrical discharge (Human Body Model) Power supply voltages Receive input optical power (damage threshold) Symbol Tst TOP RH ESD VCC3, max VCC5, max Pdth Ratings -40 to +85 -40 to +85 5 to 85 (non-condensing) 500 -0.3 to 3.63 -0.5 to 6.0 5 Unit C C % V V V dBm Note: Absolute maximum ratings represent the damage threshold of the device. Damage may occur if the device is operated above the limits stated here except for brief excursions. Performance is not guaranteed and reliability is not implied for operation at any condition outside the recommended operating limits. 3.4 Operating Conditions Part Number SONET/SDH and FEC (9.95 to 11.35 Gbps) 10GbE/10GFC and FEC (9.95 to 11.27 Gbps) X X X X Industrial Temperature (-40C to 85C) X X Commercial Temperature (-5C to 70C) X X X X JXP-01EMAB1 JXP-01EMAC1 JXP-01EEAB1 JXP-01EGAB1 X X Note: Performance is not guaranteed and reliability is not implied for operation at any condition outside the recommended operating limits. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 9 3.5 Electrical Characteristics Parameter Symbol Minimum Typical Maximum Unit Notes Supplycurrentsandvoltages 3.13 3.3 3.47 Voltage3 VCC3 Voltage5 VCC5 4.75 5 5.25 Voltage2 VCC2 1.8 Supply current3 ICC3 750 Supply current5 ICC5 500 Supply current2 ICC2 0 Powerdissipation Pwr 3.5 Lowspeedcontrolandsensesignals(detailedspecificationinXFPMSAINF8077iRev.4.5) Outputs (Interrupt, VOL 0 0.4 Mod_NR, RX_LOS) VOH Inputs (TX_DIS, VIL P_Down/RST, M_DSEL) VIH SCL and SDA Inputs VIL VIH host_Vcc-0.5 -0.3 2 -0.3 Vcc3*0.7 host_Vcc+ 0.3 0.8 Vcc3+ 0.3 Vcc3*0.3 Vcc3+0.5 V V V mA mA mA W V WithrespecttoGND WithrespecttoGND Not used VPS; Not used Rpullup pulled to host _Vcc, measured at host side of connector. IOL(max)=3 mA Rpullup pulled to host _Vcc, measured at host side of connector Pulled up in module to Vcc3 Pulled up in module to Vcc3 Rpullup pulled to host _Vcc, measured at XFP side of connector Rpullup pulled to host _Vcc, measured at XFP side of connector V V V Transmitterinput(detailedspecificationinXFPMSAINF8077iRev.4.5) Data input baud rate nominal 9.95 11.35 Data input bit rate tolerance -100 +100 (10GbE/10GFC) Data input bit rate tolerance -20 +20 (SONET/SDH) Data input compliance B Data input differential RI 90 100 110 impedance Receiveroutput(detailedspecificationinXFPMSAINF8077iRev.4.5) Data output baud rate nominal 9.95 11.35 Data output compliance C Data output bit rate stability -100 +100 (10GbE / 10GFC) Data output bit rate stability -20 +20 (SONET/SDH) Gbps ppm ppm Internally AC coupled signals Gbps Internally AC coupled signals ppm ppm MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 10 3.6 Jitter Specifications Parameter Symbol Min Max Unit Notes TransmitterelectricalinputjitterfromhostatB(detailedspecificationinXFPMSAINF8077iRev.4.5)1 Total non-EQJ jitter 0.41 UI(p-p) Total jitter less ISI Total jitter TJ 0.61 UI(p-p) Eye mask X1 0.305 UI Mask coordinate X1=0.205 if total non-DDJ is measured Eye mask Y1 60 mV Eye mask Y2 410 mV 50 mV is allocated for multiple reflections ReceiverelectricaloutputjittertohostatC(detailedspecificationinXFPMSAINF8077iRev.4.5)1 Deterministic jitter DJ 0.18 UI(p-p) Includes jitter transferred from the optical receiver during any valid operational input condition. Total jitter TJ 0.34 UI(p-p) Includes jitter transferred from the optical receiver during any valid operational input condition. Eye mask X1 0.17 UI Eye mask X2 0.42 UI Eye mask Y1 170 mV Eye mask Y2 425 mV Telecommoduleopticaltransmitterandreceiverjitter(detailedspecificationinXFPMSAINF8077iRev.4.5andGR-253-CORE Issue4-2005)2 Jittertransferbandwidth BW 8 MHz PRBS231-1, OC-192 / SDH-64 Sinusoidal Jitter Tolerance Mask Jitter peaking 1 dB Frequency >120 KHz Transmitter jitter generation 0.3 UIpp 20 KHz to 80 MHz 0.1 UIpp 4 MHz to 80 MHz Datacommoduleopticaltransmitterandreceiverjitter(detailedspecificationinXFPMSAINF8077iRev.4.5)1 Jittertransferbandwidth BW 8 MHz PRBS231-1, Data or scrambled 64 B/66 B as detailed in IEEE 802.3-2005 Clause 52 Jitter peaking 1 dB Frequency >50 KHz 1. Specifications are applicable to all Part Numbers listed in Section 3.4. 2. Specifications are applicable to SONET / SDH compliant Part Numbers listed in Section 3.4 only. 3.7 Timing Requirement of Control and Status I/O Parameter TX_DIS assert time TX_DIS negate time Time to initialize Interrupt assert delay Interrupt negate delay P_Down/RST assert delay Mod_NR assert delay Mod_NR negate delay P-Down reset time RX_LOS assert delay RX_LOS negate delay Symbol t_off t_on t_init Interrupt_on Interrupt_off P_Down/RST_on Mod_NR_on Mod_NR_off Min Max 10 2 300 200 500 100 1 1 Unit sec msec msec msec sec sec msec msec sec sec sec Notes Rising edge of TX_DIS to fall of output signal below 10% of nominal Falling edge of TX_DIS to rise of output signal above 90% of nominal From power on or from falling edge of P_Down/RST From occurrence of the condition triggering Interrupt. From clear on read Interrupt flags From power down initiation From occurrence of fault to assertion of Mod_NR From clearance of signal to negation of Mod_NR Min. length of P-Down assert to initiate reset From Occurrence of loss of signal to assertion of RX_LOS From Occurrence of return of signal to negation of RX_LOS 10 t_loss_on t_loss_off 100 100 Note: Two-wire serial bus timing is described in Chapter 4 of XFP MSA INF8077i Rev. 4.5. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 11 3.8 XFP Two-wire Interface Protocol and Management Interface The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver incorporates a XFP compliant two-wire management interface which is used for serial ID, digital diagnostics, and certain control functions. It is modeled on the SFF-8472 Rev 9.3 specification modified to accommodate a single two-wire interface address. In addition to the basic I2C read/write functionality the modules support packet error checking that, when enabled, allows the host system to confirm the validity of any read data. Details of the protocol and interface are explicitly described in the MSA. Please refer to the MSA for design reference. 0- 2-Wire Serial Address 1010000x (A0H) Digital Diagnostic Functions 118 119-122 126 127 4 Byte Password Change 4 Byte Password Entry Page Select Byte Entry 128Reserved For Future Diagnostic Functions 255 128XFP MSA Serial ID Data 223 224255 Vendor Specific ID Data Table 01H 128User EEPROM Data 255 128Vendor Specific Functions 255 128- Reserved Table 00H Table 02H Table 03H-7FH 255 Table 80H-FFH Figure 5 XFP two-wire serial digital diagnostic memory map MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 12 3.9 Optical Transmitter Characteristics Parameter Symbol Minimum 1530 30 -1.0 8.2 Typical Maximum 1565 1 -130 2.0 Unit nm nm dB dB/Hz dBm dB ps/nm dB dB dBm dB dBm dB Center wavelength -20 dB spectral width Sidemode suppression ratio SSR Relative intensity noise RIN12OMA Average optical power (SONET/SDH) (EOL) Pavg Extinction ratio1 ER Chromatic dispersion penalty PCD Optical path penalty DP Return loss tolerance Datacommoduleopticaltransmittercharacteristics2 OMA (optical modulation amplitude) OMA Transmitter and dispersion penalty TDP Average optical power (10GbE/10GFC) (EOL) Pavg Extinction Ratio1 (10GbE/10GFC) ER 9 800 2.0 27 -1.7 -4.7 3 3.0 4.0 1. Tested with PRBS 231-1 pattern 2. Applicable to non SONET/SDH compliant Part Numbers listed in Section 3.4 only. 3.10 Optical Receiver Characteristics Parameter Center wavelength Receiver sensitivity1 Stressed receive sensitivity2 Receive overload3 Receiver reflectance LOS assert LOS deassert LOS hysteresis Symbol Rsen SRS Pmax Rrx Plos_on Plos_off Minimum 1260 Typical Maximum 1600 -16 -11.3 -27 -20 -18.5 6 Unit nm dBm dBm dBm dB dBm dBm dB +1 -30 0.5 Note: Specifications are applicable to the operating temperature range listed in Section 3.4 1. Guaranteed at 10.709 Gbps. Measured with worst ER; BER<10-12; 231-1 PRBS. 2. Guaranteed at 11.35 Gbps. 3. Guaranteed up to 10.709 Gbps. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 13 3.11 Regulatory Compliance The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver is lead-free and RoHS 6/6 compliant per Directive 2002/95/EC of the European Parliament and of the Council of January 27, 2003 on the restriction of the use of certain hazardous substances in electrical and electronic equipment. The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver complies with international electromagnetic compatibility (EMC) and international safety requirements and standards. EMC performance is dependent on the overall system design. Information included herein is intended as a figure of merit for designers to use as a basis for design decisions. Table 2 Regulatory Compliance Feature Component safety Test Method UL 60950 UL94-V0 EN 60950 Directive 2002/95/EC Performance UL Certificate UL Certificate TUV Report/Certificate (CB Scheme) Compliant per the Directive 2002/95/EC of the European Parliament and of the Council of 27 January 2003 on the restriction of the use of certain hazardous substances in electrical and electronic equipment. TUV Certificate CDRH compliant and Class 1 laser eye safe. Noise frequency range: 30 MHz to 40 GHz. Good system EMI design practice required to achieve Class B margins. RoHS-compliance Laser eye safety ElectromagneticCompatibility Electromagnetic emissions EN 60825 U.S. 21CFR 1040.10 EMC Directive 89/336/EEC FCC CFR47 Part 15 IEC/CISPR 22 AS/NZS CISPR22 EN 55022 ICES-003, Issue 4 VCCI-03 EMC Directive 89/336/EEC IEC /CISPR/24 EN 55024 EN61000-4-2 EN 61000-4-3 Electromagnetic immunity ESDimmunity Radiated immunity Exceedsrequirements.Withstandsdischargesof; 8 kV contact, 15 kV air Exceeds requirements. Field strength of 10 V/m RMS, from 10 MHz to 1 GHz. No effect on transmitter/receiver performance is detectable between these limits. 3.12 PCB layout Recommended PCB layout is given in XFP MSA INF8077i Rev. 4.5. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 14 3.13 Module Outline Figure 6 Belly-to-Belly Mounting Recommendation 3.14 Connectors Fiber The XFP module has a duplex LC receptacle connector. Electrical The electrical connector is the 30-way, two-row PCB edge connector. Customer connector is Tyco/AMP Part No. 788862C or equivalent. MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 15 Section 4 Related Information Other information related to the JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver includes: *Section4.1PackingandHandlingInstructions *Section4.2ESDDischarge(ESD) *Section4.3EyeSafety 4.1 Package and Handling Instructions Connector covers The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver is supplied with an LC duplex receptacle. The connector plug supplied protects the connector during standard manufacturing processes and handling by preventing contamination from dust, aqueous solutions, body oils, or airborne particles. Note: It is recommended that the connector plug remain on whenever the transceiver optical fiber connector is not inserted. Recommended cleaning and degreasing chemicals JDSU recommends the use of methyl, isopropyl and isobutyl alcohols for cleaning. Do not use halogenated hydrocarbons (e.g. trichloroethane, ketones such as acetone, chloroform, ethyl acetate, MEK, methylene chloride, methylene dichloride, phenol, N-methylpyrolldone). This product is not designed for aqueous wash. Housing The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver housing is made from zinc. 4.2 ESD Discharge (ESD) Handling Normal ESD precautions are required during the handling of this module. This transceiver is shipped in ESD protective packaging. It should be removed from the packaging and otherwise handled in an ESD protected environment utilizing standard grounded benches, floor mats, and wrist straps. Test and operation In most applications, the optical connector will protrude through the system chassis and be subjected to the same ESD environment as the system. Once properly installed in the system, this transceiver should meet and exceed common ESD testing practices and fulfill system ESD requirements. Typical of optical transceivers, this module's receiver contains a highly sensitive optical detector and amplifier which may become temporarily saturated during an ESD strike. This could result in a short burst of bit errors. Such an event might require that the application re-acquire synchronization at the higher layers (e.g. Serializer / Deserializer chip). MUlTIPROTOCOl XFP OPTICAl TRANSCEIvER --1550 NM FOR UP TO 40 KM REACH 4.3 Eye Safety The JDSU 10 Gbps 1550 nm multiprotocol XFP optical transceiver is an international Class 1 laser product per IEC 60825-1 second edition 2007. The product also complies with U.S.A. regulations for Class 1 products contained in 21 CFR 1040.10 and 1040.11. Laser emissions from Class 1 laser products are not considered hazardous when operated within the limits of this specification. Operating this product in a manner inconsistent with intended usage and specification may result in hazardous radiation exposure. CLASS 1 LASER PRODUCT Caution Tampering with this laser based product or operating this product outside the limits of this specification may be considered an act of "manufacturing," and will require, under law, recertification of the modified product with the U.S. Food and Drug Administration (21 CFR 1040). Ordering Information For more information on this or other products and their availability, please contact your local JDSU account manager or JDSU directly at 1-800-498-JDSU (5378) in North America and +800-5378-JDSU worldwide, or via e-mail at customer.service@jdsu.com. Sample: JXP-01EMAB1 Product Code JXP-01EMAB1 JXP-01EMAC1 JXP-01EEAB1 JXP-01EGAB1 Description Multiprotocol,OC-192IR-2,10GbE/FCER/EW,1550nm,industrialtemperaturerange10GbpsXFPopticaltransceiver Multiprotocol,OC-192IR-2,10GbE/FCER/EW,1550nm,commercialtemperaturerange10GbpsXFPopticaltransceiver 10GbE/FCER/EW,1550nm,industrialtemperaturerange10GbpsXFPopticaltransceiver 10GbE/FCER/EW,1550nm,commercialtemperaturerange10GbpsXFPopticaltransceiver NORTH AMERICA: 800 498-JDSU (5378) wORlDwIDE: +800 5378-JDSU wEBSITE: www.jdsu.com Product specifications and descriptions in this document subject to change without notice. (c) 2009 JDS Uniphase Corporation 30149406 002 0409 JXP-01EXAX1.DS.CMS.AE April 2009 |
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