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| Mitsubishi Electric Corp. Datasheet MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver XFP Multirate Optical Transceiver MF-10KSXA-007ZA Features: * * * * * * * Protocol Independent 10Gbps transceiver Hot pluggable Management interface compliant with I2CTM rev. 2 and XFP MSA Multi rate from 9.95Gbps to 11.0957Gbps (FEC) XFI compatible electrical interface thru 30pin connector Low power dissipation: < 2.5W Low cost Changes for the Better UQ9-07-005(XF-10K) (1/15) Mitsubishi Electric Corp. Datasheet 1. Description MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver This XFP optical transceiver is designed to provide high optical performance for SDH I-64.1 / SONET SR-1 (2km) and IEEE 802.3ae LR (10km). Transmitter side uses 1310nm DFB with specified driving circuit and signal conditioning circuit. Receiver side uses PD preamp-module and integrated circuits for re-shaping, re-timing and re-generating input optical signal. Input and output signals handle NRZ format. Digital diagnostic functions are also available via 2-wire interface according to the XFP MSA specification. 2. Block Diagram 2.1 Total Block Diagram System side 2 XFP Transceiver Signal Conditioner Driver DFBLD Opt. Out ASIC/SerDes TD+/- APC 2 RD+/- Signal Conditioner Post Amp ROSA PD/APD Opt. In Monitor 2 SCL/SDA 2 RefCLK+/- Micro Controller Reference Clock Control Monitor/Alarm Control Signals Control Signals Fig. 2.1 Block Diagram Changes for the Better UQ9-07-005(XF-10K) (2/15) Mitsubishi Electric Corp. Datasheet 3. Absolute Maximum Ratings MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Stress below listed absolute maximum rating may cause permanent damage to the module. This is a stress only and functional operation of the module at these or any other conditions in excess of those given in the operational sections of this data sheet. Exposure to Absolute Maximum Rating for extended periods may affect module reliability. Absolute Maximum Ratings (MF-10KSXA-007ZA) Symbol Min Max Supply Voltage VDD3 0 +3.6 Storage temperature Tstg -40 +85 Operating temperature (Case) Tcase -5 +70 Relative humidity (Non condensation) 5 90 Table 3.1 Parameter Unit V degC degC % Changes for the Better UQ9-07-005(XF-10K) (3/15) Mitsubishi Electric Corp. Datasheet 4. Pin Descriptions MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Table 4.1 shows the Pin descriptions of XFP connector and Fig.4.2 shows the Diagram of Host Board Connector Pin Numbers and Names. Table 4.1 Pin Descriptions of XFP Connector Pin Logic Symbol Name/Description 1 GND Module Ground 2 VEE5 Optional -5.2V Power Supply 3 LVTTL-I Mod_Desel Prevent module from communicating cia I2C 4 LVTTL-O /Interrupt Indicates presence of an important conditions 5 LVTTL-I Tx_Dis Laser source turned off 6 VDD5 +5V Power Supply 7 GND Module Ground 8 VDD3 +3.3V Power Supply 9 VDD3 +3.3V Power Supply 10 LVTTL-I/O SCL I2C Serial Interface Clock 11 LVTTL-I/O SDA I2C Serial Interface Data Line 12 LVTTL-O Mod_Abs Module-Absent indicator 13 LVTTL-O Mod_Nr Module-Not-Ready indicator 14 LVTTL-O Rx_Los Receive-Loss-Of-Signal Indicator 15 GND Module Ground 16 GND Module Ground 17 CML-O RDN Inverted Receiver Data Output 18 CML-O RDP Receiver Data Output 19 GND Module Ground 20 VDD2 +1.8V Power Supply 21 LVTTL-I PDown/RST Power down / Reset command 22 VDD2 +1.8V Power Supply 23 GND Module GND 24 PECL-I CRefP Reference Clock Input 25 PECL-I CREfN Inverted Reference Clock Input 26 GND Module GND 27 GND Module GND 28 CML-I TDN Inverted Transmitter Data Input 29 CML-I TDP Transmitter Data Input 30 GND Module GND Note; 1. Module ground pins GND are isolated from the module case and chassis ground within the module. 2. Shall be pulled up with 4.7k-10kohms to a voltage between 3.15V and 3.45V on the board Note 1 2 1 2 2 2 2 2 1 1 1 1 1 1 1 Changes for the Better UQ9-07-005(XF-10K) (4/15) Mitsubishi Electric Corp. Datasheet MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Fig. 4.2 Diagram of Host Board Connector Block Pin Numbers and Names Fig. 4.3 Diagram of Transceiver card edge connector Numbers and Names (See Fig. 8.1) Changes for the Better UQ9-07-005(XF-10K) (5/15) Mitsubishi Electric Corp. Datasheet 5. Electrical Characteristics All parameters are specified over the operating case temperature. MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver 5.1 Power Supply Table 5.1.1 Parameters SupplyVoltage SupplyCurrent Power Consumption VDD3 Idd3 W Power Supply Min. +3.13 - Tc : -5 to +70degC Typ. Max. Unit +3.3 +3.47 700 2.5 V mA W 5.2 Host Filtering and Supply Voltage Measurement Points The example host board power supply filtering and Supply voltage measurement points are shown in Fig 5.2.1. Host board power supply must meet XFP MSA specification. Host +5V 0.1uF Host +3.3V 0.1uF 4.7H 22uF 4.7H 22uF 0.1uF VDD5 0.1uF VDD3 Connector XFP Module Host +1.8V 0.1uF Host -5.2V 0.1uF 4.7H 22uF 4.7H 22uF 0.1uF 0.1uF VDD2 VEE5 Measurement points Fig. 5.2.1 Example of Host Board Supply Filtering Network and Supply Voltage measurement points Changes for the Better UQ9-07-005(XF-10K) (6/15) Mitsubishi Electric Corp. Datasheet 5.3 High Speed Electrical Interface MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver XFP Module high-speed electrical interface specification is shown in table 5.3.1 and the High Speed Electrical Interface definition point is shown in Fig. 5.3.1. Table 5.3.1 Parameter Transmitter Input Input Differential Impedance Termination Mismatch Source to Sink DC Potential Difference Input AC Common mode Voltage Differential Input Return Loss Common Mode Input Return Loss Differential to Common Mode Conversion Total Non-DDJ Jitter Total Jitter Sinusoidal Jitter Tolerance Eye Mask Receiver Output Reference Differential Output Impedance Termination Mismatch DC Common Mode Potential Output AC Common Mode Voltage Output Rise and Fall time Differential Output Return Loss Common Mode Output Return Loss Deterministic Jitter Total Jitter Eye Mask Reference Clock Clock Differential Input Impedance Differential Input Clock Amplitude Reference Clock Duty Cycle Reference Clock Rise/Fall time Reference Clock Frequency RMS Jitter Random Jitter Reference Clock Frequency Tolerance 1. 2. 3. 4. High Speed Electrical Interface Symbol Zd ZM Vcm SDD11 SCC11 SCD11 TJ SJ X1 Y1 Y2 Zd ZM Vcm tRH/tFH SDD22 SCC22 DJ TJ X1 X2 Y1 Y2 Zd Min 80 0 8 3 10 0.41 0.61 See 2 0.305 60 410 80 0 24 8 3 0.18 0.34 0.17 0.42 170 425 80 640 40 200 100 50 Baud/64 -100 10 100 ps ppm Up to 100MHz V.S. Baud/64 120 1600 60 1250 100 120 5 3.6 15 Typ 100 Max 120 5 3.6 25 Unit ohm % V mV(RMS) dB dB dB UIpp UIpp UI mV mV ohm % V mV(RMS) ps dB dB UIpp UIpp UI UI mV mV ohm mVpp % ps See 3, Fig. 5.3.2 Fig. 5.3.2 See 4, Fig. 5.3.2 Tc : -5 to +70degC Note Up to 8GHz 0.1-15GHz 0.1-15GHz 20-80% Up to 8GHz 0.1-15GHz Fig. 5.3.3 Fig. 5.3.3 Fig. 5.3.3 Fig. 5.3.3 AC Coupled PECL Tr/Tf f0 f 20-80% Sinusoidal jitter tolerance for Telecom and Datacom respectively given by XFP MSA specification. Mask coordinate X1=0.205 if total non-DDJ is measured. Out of 410mV,50mV is allocated for multiple reflection. Differential Return Loss given be equation SDD22(dB)=8-22.66 log10(f/5.5), f=frequency(GHz) Changes for the Better UQ9-07-005(XF-10K) (7/15) Mitsubishi Electric Corp. Datasheet HOST BOARD MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Transmitter Interface Point XFP module ASIC/SerDes Receiver Interface Point Reference Clock Fig. 5.3.1 XFP Module Electrical Interface Point Connector Absolute Amplitude Absolute Amplitude Y2 Y1 0.0 -Y1 -Y2 0.0 X1 1-X1 Normalized Time (UI) 1.0 Y2 Y1 0.0 -Y1 -Y2 0.0 X1 X2 1-X2 1-X1 1.0 Normalized Time (UI) Fig. 5.3.2 Transmitter Differential Input Compliance Mask Fig. 5.3.3 Receiver Differential Output Compliance Mask Changes for the Better UQ9-07-005(XF-10K) (8/15) Mitsubishi Electric Corp. Datasheet 5.4 Low Speed Electrical Interface MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver XFP Module low speed electrical interface specification is shown in Table 5.4.1. Table 5.4.1 Low Speed Electrical Interface Symbol Min. Max. Unit VIH 2.0 VDD3+0.3 V -0.3 0.8 V VIL VOH VOL VIH VIL VOH VOL Il Ci VDD3-0.5 0.0 VDD3*0.7 -0.3 VDD3-0.5 0.0 -10 VDD3+0.3 0.4 VDD3+0.5 VDD3*0.3 VDD3+0.3 0.4 10 14 100 Cb 400 pF V V V V V V uA pF pF At 400kHz, 3.0kohm Rp, max At 100kHz, 8.0kohm Rp, max At 400kHz, 0.80kohm Rp, max At 100kHz, 2.0kohm Rp, max Parameter LVTTL-I (Tx_Dis, P_Down/RST) LVTTL-O (Interrupt, Mod_Nr, Rx_Los) LVTTL-I (SCL, SDA) LVTTL-O (SCL, SDA) Leakage Current Capacitance for XFP SCL and SDA I/O Pin Total bus capacitance load for SCL and for SDA Tc : -5 to +70degC Note VDD3 as same as Pull-up Vcc VDD3 as same as Pull-up Vcc VDD3 as same as Pull-up Vcc VDD3 as same as Pull-up Vcc VDD3 as same as Pull-up Vcc XFP Host Host_Vcc Rp SDA or SCL line Fig. 5.4.1 An Example Open Drain Type Connection for I2C Changes for the Better UQ9-07-005(XF-10K) (9/15) Mitsubishi Electric Corp. Datasheet 6. Optical Characteristics All parameters are specified over the operating case temperature. MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver 6.1 SONET SDH 2km/ IEEE 10km Optical Characteristics Table 6.1.1 Optical Characteristics Parameter Bit Rate Symbol B Snom Sidle ER OMA SMSR Min 9.953 1290 Typ. Max Unit Gbps nm dBm dBm dB dBm dB nm dBm dBm dBm dB 0.40 1.40 1.4 1 0.75 1 0.75 0.50 0.25 0 -0.25 0 0.2UI 1 UI 0.25 0 -0.40 0 0.25 0.45 0.55 0.75 1 UI 0.28 Tc : -5 to +70degC Note 11.0957 Transmitter Part Center Wavelength Optical Source Optical Output Power Shutdown Optical Power Extinction Ratio with Filter Optical Modulation Amplitude Side Mode Suppression Ratio Eye Mask *1 1330 DFB -6 -1 -30 6 -5.2 30 GR-253-CORE / ITU-T G.691 IEEE802.3ae 1330 -11 -10.3 -14 10.3Gbps Fig.6.1.1 10.3Gbps, Fig.6.1.2 Receiver Part Center Wavelength 1290 Sensitivity Overload OL 0 Stressed Sensitivity in OMA Maximum Reflectance *1 : Eye mask compliance is shown in Fig.6.1.1 and Fig.6.1.2. @BER=10-12 10.3Gbps, @BER=10-12 0.60 0.72 Fig. 6.1.1 MASK for GR-253/G.691 Fig. 6.1.2 MASK for IEEE802.3ae Changes for the Better UQ9-07-005(XF-10K) (10/15) Mitsubishi Electric Corp. Datasheet 7. 2-Wire Serial Interface MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver XFP module has 2-Wire Serial Interface (SDA, SCL), which allows host to monitor some operating parameters and to set some parameters to control the XFP module. As for the detail information of 2-Wire Interface, please see the XFP MSA specification document. 7.1 Digital Diagnostic Functions Digital Diagnostic Functions are provided using 2-Wire Interface. function to Host. It provides the following operating monitoring 1) Internally Measured Transceiver Temperature Represented as a 16 bit signed twos compliment value in increments of 1/256 degrees Celsius valid. The accuracy is better than +/-3 degrees Celsius over specified operating case temperature and voltage. 2) Measured TX Bias Current in uA Represented as a 16 bit unsigned integer with the current defined as the full 16 bit value with LSB equal to 2uA, yielding a total measurement range of 0 to 131uA. The accuracy is better than +/-10% over specified operating case temperature and voltage. 3) Measured Tx Output Power in mW Represented as a 16 bit unsigned integer with the power defined as the full 16 bit value with LSB equal to 0.1uW, yielding a total measurement range of 0 to 6.5535mW (8.2dBm). Data is based on measurement of laser monitor photodiode current. The accuracy is better than +/-2dB over specified operating case temperature and voltage. 4) Measured RX Received Optical Power in mW Value can represent either the average received power. Represented as a 16 bit unsigned integer with the power defined as the full 16 bit value with LSB equal to 0.1uW, yielding a total measurement range of 0 to 6.5535mW (+8.2dBm). The accuracy is better than +/-2dB over specified operating case temperature and voltage. 5) Internally Measured Transceiver Supply Voltage Represented as a 16 bit unsigned integer with the voltage defined as the full 16 bit value with LSB equal to 100uV, yielding a total measurement range of 0 to +6.55V. The accuracy is better than +/- 3% over specified operating case temperature and voltage. Changes for the Better UQ9-07-005(XF-10K) (11/15) Mitsubishi Electric Corp. Datasheet 8. General Outline Drawing MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Changes for the Better UQ9-07-005(XF-10K) (12/15) Mitsubishi Electric Corp. Datasheet 9. Environment Considerations 9.1 Mechanical Shock MIL-STD-883 Method 2002 MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver 9.2 Mechanical Vibration MIL-STD-883 Method 2004 9.3 Thermal Shock MIL-STD-883 Method 1011 9.4 Laser Class Class 1 Laser Products 9.5 ESD IEC 610004-2, 500V, HBM 10. Reference Document 1) 10 Gigabit Small Form Factor Pluggable Module (XFP) Multi-Source Agreement (MSA), Rev 4.0 - April 2003. http://www.xfpmsa.org/XFP_SFF_INF_8077i_Rev4_0.pdf Changes for the Better UQ9-07-005(XF-10K) (13/15) Mitsubishi Electric Corp. Datasheet 11. Ordering Information 11.1 Transceiver Type Number Type Number MF-10KSXA-007ZA MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Features MITSUBISHI Standard type (1310nm 2km/10km version) Optical Connector LC Receptacle 11.2 Optional Test Board Type Number Features XFP Test Board Please refer following figure. Changes for the Better UQ9-07-005(XF-10K) (14/15) Mitsubishi Electric Corp. Datasheet History MITSUBISHI OPTICAL DEVICES MF-10KSXA-007ZA 10Gbps 1310nm XFP Optical Transceiver Note MITSUBISHI ELECTRIC CORPORATION reserves the right to make changes to the production or information contains herein without notice. Customer versions are available for large quantities. Please ask MITSUBISHI ELECTRIC CORPORATION. The End of This Document Changes for the Better UQ9-07-005(XF-10K) (15/15) |
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