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| Gigabit Ethernet SFP Multimode Transceiver with Digital Diagnostics TRPAG1SXLAES Product Description The TRPAG1SXLAES SFP ber optic transceiver with integrated digital diagnostics monitoring functionality provides a quick and reliable interface for Gigabit Ethernet1000BASE-SX multimode applications. The diagnostic functions, alarm and warning features as described in the Multi-Source Agreement (MSA) document, SFF-8472(Rev. 9.4), are provided via an I2C serial interface. A highly reliable 850nm wavelength Vertical Cavity Surface Emitting Laser (VCSEL) is used in the transmitter. The transceiver satises Class I Laser Safety requirements in accordance with the U.S. FDA/CDRH and international IEC-60825 standards. The TRPAG1SXLAES transceiver connects to a standard 20-pad SFP connector for hot plug capability. This allows the system designer to make conguration changes or maintenance by simply plugging in dierent types of transceivers without removing the power supply from the host system. The transceiver has bail-type latch, which oers an easy and convenient way to release the module. The latch is compliant with the SFP MSA. The transmitter and receiver DATA interfaces are AC coupled internally. LV-TTL Transmitter Disable controlinput and Loss of Signal output interfaces are also provided. The transceiver operates from a single +3.3V power supply over an operating case temperature range of -40C to+85C. The housing is made of plastic and metal for EMI immunity. Features Compatible with SFP MSA Compliant with IEEE 802.3z Gigabit Ethernet 1000BASE-SX PMD Specifications Digital Diagnostics through Serial Interface Internal Calibration for Digital Diagnostics Industrial Operating Temperature Range 275m Distance with 62.5m Multimode Fiber 550m Distance with 50m Multimode Fiber TX Disable Input Hot-pluggable Eye Safe (Class I Laser Safety) Duplex LC Optical Interface Single +3.3V Power Supply Absolute Maximum Ratings Parameter Storage Temperature Operating Case Temperature1 Supply Voltage Input Voltage 1 Symbol VST Industrial2 VOP VCC VIN Minimum - 40 - 40 0 0 Maximum + 85 + 85 + 5.0 VCC Units C C V V Measured on top side of SFP module at the front center vent hole of the cage. An Oplink Company RevB-NP.2008.00909 TRPAG1SXLAES Transmitter Performance Characteristics All parameters guaranteed only at typical data rate Parameter Operating Data Rate 1 Optical Output Power 2 Center Wavelength Spectral Width (RMS) Extinction Ratio Total Jitter Relative Intensity Noise Coupled Power Ratio Transmitter Output Eye 1 2 (Over Operating Case Temperature. VCC = 3.13 to 3.47V) Symbol B PO C RMS Phi /Plo TJ RIN CPR Minimum - 9.5 820 9 9 Typical 1250 - 7.0 - Maximum - 4.0 860 0.85 227 - 117 - Units Mb/s dBm nm nm dB ps dB/Hz dB Compliant with Eye Mask Dened in IEEE 802.3z Standard Data rate ranges from 1000Mb/s to 1300Mb/s. However, some degradation may be incurred in overall performance. Measured average power coupled into either 50m or 62.5m multimode fiber. Receiver Performance Characteristics All parameters guaranteed only at typical data rate Parameter Operating Data Rate 1 Minimum Input Optical Power (10 -12 (Over Operating Case Temperature. VCC = 3.13 to 3.47V) Minimum - 17.0 0 - 30.0 0.5 770 12 Typical 1250 Compliant with 802.3z Standard Maximum - 17.0 266 860 1500 Units Mb/s dBm dBm dBm dB ps nm dB MHz Symbol B BER) 2 Pmin Pmax Plos+ PlosTJ ORL - Maximum Input Optical Power (10 -12 BER) 2 LOS Thresholds LOS Hysteresis Total Jitter Wavelength of Operation Optical Return Loss Electrical 3dB Upper Cuto Frequency Stressed Receiver Sensitivity 1 2 Increasing Light Input Decreasing Light Input Data rate ranges from 1000Mb/s to 1300Mb/s. However, some degradation may be incurred in overall performance. Measured with 27-1 PRBS at 1250Mb/s and 850nm wavelength. Laser Safety: All transceivers are Class I Laser products per FDA/CDRH and IEC-60825 standards. They must be operated under specified operating conditions. Oplink Communications, Inc. DATE OF MANUFACTURE: This product complies with 21 CFR 1040.10 and 1040.11 Meets Class I Laser Safety Requirements Oplink Communications, Inc. 2 RevB-NP.2008.00909 TRPAG1SXLAES Transmitter Performance Characteristics Parameter Input Voltage Swing (TD+ & TD-) 1 Input HIGH Voltage (TX Disable) Input LOW Voltage (TX Disable) Output LOW Voltage (TX Fault) 1 2 3 (Over Operating Case Temperature. VCC = 3.13 to 3.47V) Minimum 0.50 2.0 0 2.0 0 Typical Maximum 2.4 VCC 0.8 VCC +0.3 0.8 Units V V V V V Symbol VPP-DIF VIH VIL VOH VOL 2 2 Output HIGH Voltage (TX Fault) 3 3 Differential peak-to-peak voltage. There is an internal 4.7 to 10k pull-up resistor to VccT. Open collector compatible, 4.7 to 10k pull-up resistor to Vcc (Host Supply Voltage). Receiver Electrical Interface Parameter Output Voltage Swing (RD+ & RD-) Output HIGH Voltage (LOS) Output LOW Voltage (LOS)) 1 2 (Over Operating Case Temperature. VCC = 3.13 to 3.47V)) Symbol Minimum 0.6 2.0 0 Typical Maximum 2.0 VCC +0.3 0.5 Units V V V 1 VPP-DIF VOH VOL 2 2 Differential peak-to-peak voltage across external 100 load. Open collector compatible, 4.7 to 10k pull-up resistor to Vcc (Host Supply Voltage). Electrical Power Supply Characteristics Parameter Supply Voltage Supply Current VCC ICC (Over Operating Case Temperature. VCC = 3.13 to 3.47V)) Minimum 3.13 Typical 3.3 175 Maximum 3.47 245 Units V mA Symbol Module Definition MOD_DEF(0) pin 6 MOD_DEF(1) pin 5 MOD_DEF(2) pin 4 Interpretation by Host TTL LOW SCL SDA Serial module denition protocol Electrical Pad Layout 20 19 18 17 16 15 14 13 12 11 TX GND TD- (TX DATA IN-) TD+ (TX DATA IN+) TX GND VccTX VccRX RX GND RD+ (RX DATA OUT+) RD- (RX DATA OUT-) RX GND Host Board Connector Pad Layout 20 19 18 17 16 15 14 13 12 11 Toward ASIC 1 2 3 4 5 6 7 8 9 10 TX GND TX Fault TX Disable MOD_DEF(2) MOD_DEF(1) MOD_DEF(0) NO CONNECTION LOS RX GND RX GND 1 2 3 Toward Bezel 4 5 6 7 8 9 10 Top of Board Bottom of Board (as viewed thru top of board) Oplink Communications, Inc. 3 RevB-NP.2008.00909 TRPAG1SXLAES Example of SFP host board schematic Vcc 3.3V 1H coil or ferrite bead (<0.2 series resistance) Vcc 3.3V + 10 0.1 0.1 16 15 R 2 8 4 5 6 R R R TX Fault LOS MOD_DEF(2) MOD_DEF(1) MOD_DEF(0) (Internally Grounded) RX DATA OUT+ to 50 load RX DATA OUTto 50 load + 10 0.1 TX Disable 3 50 line TRPAG1SXLAES 50 line 18 13 50 line 19 12 1, 9,10,11,14,17,20 TX DATA IN+ 50 line TX DATA IN- R: 4.7 to 10k Application Notes Electrical interface: All signal interfaces are compliant with the SFP MSA specification. The high speed DATA interface is differential AC-coupled internally with 0.1F and can be directly connected to a 3.3V SERDES IC. All low speed control and sense output signals are open collector TTL compatible and should be pulled up with a 4.7 - 10k resistor on the host board Loss of Signal (LOS): The Loss of Signal circuit monitors the level of the incoming optical signal and generates a logic HIGH when an insufficient photocurrent is produced. TX_Fault: The output indicates LOW when the transmitter is operating normally, and HIGH with a laser fault including laser end-of-life. TX Fault is an open collector/drain output that should be pulled up with a 4.7 - 10k resistor on the host board. TX Fault is latched per SFP MSA. TX_Disable: When the TX Disable pin is at logic HIGH, the transmitter optical output is disabled (less than -45dBm). Serial Identification and Monitoring: The module definition of SFP is indicated by the three module definition pins, MOD_DEF(0), MOD_DEF(1) and MOD_DEF(2). Upon power up, MOD_DEF(1:2) appear as NC (no connection), and MOD_DEF(0) is TTL LOW. When the host system detects this condition, it activates the serial protocol (standard two-wire I2C serial interface) and generates the serial clock signal (SCL). The positive edge clocks data into the EEPROM segments of the SFP that are not write protected, and the negative edge clocks data from the SFP. The serial data signal (SDA) is for serial data transfer. The host uses SDA in conjunction with SCL to mark the startand end of serial protocol activation. The supported monitoring functions are internal temperature, supply voltage, bias current, transmitter power, average receiver signal, all alarms and warnings and software monitoring of TX Fault/LOS. The device is internally calibrated. The data transfer protocol and the details of the mandatory and vendor specific data structures are defined in the SFPMSA, and SFF-8472, Rev. 9.4 Power supply and grounding: The power supply line shouldbe well-filtered. All 0.1F power supply bypass capacitors should be as close to the transceiver module as possible. Oplink Communications, Inc. 4 RevB-NP.2008.00909 TRPAG1SXLAES Package Outline 0 1.27 - 0.13 + .000 .050 - .005 56.7 2.23 REF 0 0.98 - 0.13 + .000 .038 - .005 1 .04 13.67 13.54 .54 .53 6.25 0.05 .246 .002 FRONT EDGE OF TRANSCEIVER CAGE 47.3 1.861 8.51 .335 8.9 .350 46335 Landing Pkwy Fremont, CA 94538 Tel: (510) 933-7200 Fax: (510) 933-7300 Email: Sales@Oplink.com * www.oplink.com 13.9 0.2 .546 .008 1.8 .07 41.8 0.15 1.646 .006 45 0.20 1.771 .008 Dimensions in inches [mm] Default tolerances: .xxx = + .005", .xx = + .01" Ordering Information Oplink can provide a remarkable range of customized optical solutions. For detail, please contact Oplink's Sales and Marketing for your requirements and ordering information (510) 933-7200 or Sales@oplink.com. Oplink Communications, Inc. reserves the right to make changes in equipment design or specifications without notice. Information supplied by Oplink Communications, Inc. is believed to be accurate and reliable. However, no responsibility is assumed by Oplink Communications, Inc. for its use nor for any infringements of third parties, which may result from its use. No license is granted by implication or otherwise under any patent right of Oplink Communications, Inc. RevB-NP.2008.00909 (c) 2006, Oplink Communications, Inc. 5 |
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