10 G SFP+ 850 nm Limiting Transceiver, 10 Gigabit Ethernet Compliant PLRXPL-Sx-S43-22-N Series www.lumentum.com Data Sheet 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant The lead-free and RoHS-compliant small form factor pluggable (SFP+) transceiver from Lumentum improves the performance for 10 Gigabit Ethernet (10 G) applications, and is ideal for high-speed, local area network applications. This transceiver features a highly reliable, 850 nm, oxide, vertical-cavity surface-emitting laser (VCSEL) coupled to an LC optical connector. The transceiver is fully compliant to 10GBASE-SR, 10GBASE-SW and 10 G Fibre Channel specifications, with internal AC coupling on both transmit and receive data signals. The all-metal housing design provides low EMI emissions in demanding 10 G applications and conforms to IPF specifications. An enhanced digital diagnostic feature set allows for real-time monitoring of transceiver performance and system stability, and the serial ID allows for customer and vendor system information to be stored in the transceiver. Transmit disable, loss-of-signal, and transmitter fault functions are also provided. The small size of the transceiver allows for high-density board designs that, in turn, enable greater total bandwidth. Key Features * Compliant to industrywide, 10 G link specifications * Uses a highly reliable, 850 nm oxide VCSEL * Lead-free and RoHS 6/6-compliant, with allowed exemptions * Commercial case operating temperature 0 - 70C; extended temperature operating up to 85C * Single 3.3 V power supply * Low power consumption (typically 450 mW) * Bit error rate <1 x 10 -12 * Hot pluggable Applications * High-speed local area networks -- Switches and routers -- Network interface cards * Computer cluster crossconnect systems * Custom high-bandwidth data pipes Compliance * SFF 8431 Revision 3.2 * SFF 8432 Revision 5.0 * SFF 8472 Revision 10.3 * IEEE 802.3 Clause 52 10GBASE-SR and 10GBASE-SW * 10 G Fibre Channel * CDRH and IEC60825-1 Class 1 Laser Eye Safety * FCC Class B * ESD Class 2 per MIL-STD 883 Method 3015 * UL 94, V0 * Reliability tested per Telcordia GR-468 www.lumentum.com 2 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Section 1 Functional Description The PLRXPL-Sx-S43-22-N 10 G SFP+ 850 nm optical transceiver is designed to transmit and receive 64B/66B scrambled 10 G serial optical data over 50/125 m or 62.5/125 m multimode optical fiber. Transmitter The transmitter converts 64B/66B scrambled serial PECL or CML electrical data into serial optical data compliant with the 10GBASE-SR, 10GBASE-SW or 10 G Fibre channel standard. Transmit data lines (TD+ and TD-) are internally AC coupled, with 100 differential termination. Transmitter rate select (RS1) pin 9 is assigned to control the SFP+ module transmitter rate. It is connected internally to a 30 k pull-down resistor. A data signal on this pin does not affect the operation of the transmitter. Receiver The receiver converts 64B/66B scrambled serial optical data into serial PECL/CML electrical data. Receive data lines (RD+ and RD-) are internally AC coupled with 100 differential source impedance, and must be terminated with a 100 differential load. Receiver Rate Select (RS0) pin 7 is assigned to control the SFP+ module receiver rate. It is connected internally to a 30 k pull-down resistor. A data signal on this pin has no affect on the operation of the receiver. An open collector compatible loss of signal (LOS) is provided. The LOS must be pulled high on the host board for proper operation. A logic "0" indicates that light has been detected at the input to the receiver (see Optical characteristics, Loss of Signal Assert/ Deassert Time). A logic "1" output indicates that insufficient light has been detected for proper operation. An open collector-compatible transmit disable (Tx_Disable) is provided. This pin is internally terminated with a 10 k resistor to Vcc,T. A logic "1," or no connection, on this pin will disable the laser from transmitting. A logic "0" on this pin provides normal operation. 10 k 3 Transmitter Disable In VCC_TX TX_DIS TOSA The transmitter has an internal PIN monitor diode that ensures constant optical power output, independent of supply voltage. It is also used to control the laser output power over temperature to ensure reliability at high temperatures. TD+ Laser Driver TX_GND 18 Transmitter Positive Data 100 19 Transmitter Negative Data TD - TX_FAULT 2 Transmitter Fault Out 1, 17, 20 Transmitter Signal Ground 5 SCL Serial ID Clock 4 SDA Serial ID Data 6 MOD_ABS SCL An open collector-compatible transmit fault (Tx_Fault) is provided. The Tx_Fault signal must be pulled high on the host board for proper operation. A logic "1" output from this pin indicates that a transmitter fault has occurred or that the part is not fully seated and the transmitter is disabled. A logic "0" on this pin indicates normal operation. 16 Transmitter Power Supply Management Processor EEPROM VCC_RX ROSA RX_GND SDA VCC_RX RD - 50 Receiver RD + RX_GND LOS 50 15 Receiver Power Supply 12 Receiver Negative Data Out 13 Receiver Positive Data Out 8 Loss of Signal Out 9 RS1 TX Rate Select Not Functional on -N modules 30 k 30 k 7 RS0 RX Rate Select Not Functional on -N modules 10,11, 14 Receiver Signal Ground Figure 1 www.lumentum.com SFP+ optical transceiver functional block diagram 3 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Section 2 Application Schematic Vcc 1 VeeT VeeT 20 R2* 50 Vcc Rp*** 2 Tx Fault TD- 19 3 Tx Disable TD+ 18 CMOS, TTL, or Open Collector Driver (Tx Disable) Power Supply Filter Rx VeeT 17 6 MOD_ABS VccR 15 7 RS0 VeeR 8 LOS RD+ 13 9 RS1 RD- 12 10 VeeR VeeR 11 L2 C2 Vcc R5 ** Mod_ABS CMOS or TTL Driver (RS0 Rx Rate Select) Ry Z* = 100 R3* 50 Vcc C5 R4* 50 R6 ** Vcc 10 k Receiver (LOS) C1 C4 14 Vcc 10 k VccT 16 5 SCL Vcc +3.3V Input *** L1 C6 C3 Rq 4 SDA Vcc Open Collector Bidirectional SCL PECL Driver (TX DATA) Receiver (Tx Fault) Open Collector Bidirectional SDA R1* 50 Z* = 100 10 k PECL Receiver (RX DATA) CMOS or TTL Driver (RS1 Tx Rate Select) Figure 2 Recommended application schematic for the 10 G SFP+ optical transceiver Notes : Power supply filtering components should be placed as close to the Vcc pins of the host connector as possible for optimal performance. PECL driver and receiver components will require biasing networks. Please consult application notes from suppliers of these components. CML I/O on the PHY are SDA and SCL should be bi-directional open collector connections in order to implement serial ID in JDSU SFP+ transceiver modules. supported. Good impedance matching for the driver and receiver is required. R1/R2 and R3/R4 are normally included in the output and input of the PHY. Please check the application notes for the IC in use. * Transmission lines should be 100 differential traces. Vias and other transmission line discontinuities should be avoided. In order to meet the host TP1 output jitter and TP4 jitter tolerance requirements it is recommended that the PHY has both transmitter pre-emphasis to equalize the transmitter traces and receiver equalization to equalize the receiver traces. With appropriate transmitter pre-emphasis and receiver equalization, up to 8 dB of loss at 5 GHz can be tolerated. ** R5 and R6 are required when an Open Collector driver is used in place of CMOS or TTL drivers. 5 k value is appropriate. *** The value of Rp and Rq depend on the capacitive loading of these lines and the two wire interface clock frequency. See SFF-8431. A value of 10 k is appropriate for 80 pF capacitive loading at 100 kHz clock frequency. www.lumentum.com 4 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Power supply filtering is recommended for both the transmitter and receiver. Filtering should be placed on the host assembly as close to the Vcc pins as possible for optimal performance. Vcc,R and Vcc,T should have separate filters. Power supply filter component values from Figure 2 are shown in the table below for two different implementations. Power Supply Filter Component Values Section 3 Specifications Technical specifications related to the SFP+ optical transceiver include: Section 3.1 Pin Function Definitions Section 3.2 Absolute Maximum Ratings Section 3.3 Operating Conditions Section 3.4 Electrical Characteristics Component Option A Option B Units Section 3.5 Optical Characteristics L1, L2 1.0 4.7 H Section 3.6 Link Length Rx, Ry 0.5* 0.5* Section 3.7 Regulatory Compliance C1, C5 10 22 F Section 3.8 PCB Layout C2, C3, C4 0.1 0.1 F Section 3.9 Front Panel Opening C6 Not required 22 F Section 3.10 Module Outline Section 3.11 Transceiver Belly-to-belly Mounting Notes: Option A is recommended for use in applications with space constraints. Power supply noise must be less than 100 mVp-p. Option B is used in the module compliance board in SFF-8431. 3.1 Pin Function Definitions *If the total series resistance of L1+C6 and L2+C5 exceeds the values of Rx and Ry in the table, then Rx and Ry can be omitted. 11 10 RS1 12 9 RD- RX_LOS 8 13 RD+ RS0 7 14 VEER 15 VCCR TOWARD HOST 16 WITHDIRECTION 17 OF MODULE INSERTION 18 VCCT 19 TD- 20 VEET Figure 3 www.lumentum.com VEE R VEER VEET TD+ MOD_ABS 6 SCL 5 SDA 4 TX_DISABLE 3 TX_FAULT 2 VEET 1 TOWARD BEZEL Host PCB SFP+ Pad assignment top view 5 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant SFP+ Optical Transceiver Pin Descriptions Pin Number Symbol Name Description 8 LOS Loss of Signal Out (OC) Sufficient optical signal for potential BER < 1x10 -12 = Logic "0" Insufficient signal for potential BER < 1x10 -12 = Logic "1" This pin is open collector compatible, and should be pulled up to Host Vcc with a 10 k resistor. 10, 11, 14 VeeR Receiver Signal Ground These pins should be connected to signal ground on the host board. The VeeR and VeeT signals are connected together within the module and are isolated from the module case. 12 RD- Receiver Negative DATA Out (PECL) Light on = Logic "0" Output Receiver DATA output is internally AC coupled and series terminated with a 50 resistor. 13 RD+ Receiver Positive DATA Out (PECL) Light on = Logic "1" Output Receiver DATA output is internally AC coupled and series terminated with a 50 resistor. 15 VccR Receiver Power Supply This pin should be connected to a filtered +3.3 V power supply on the host board. See Application schematics on page 5 for filtering suggestions. 7 RS0 RX Rate Select (LVTTL) This pin has an internal 30 k pull-down to ground. A signal on this pin will not affect module performance. 3 TX_Disable Transmitter Disable In (LVTTL) Logic "1" Input (or no connection) = Laser off Logic "0" Input = Laser on This pin is internally pulled up to VccT with a 10 k resistor. 1, 17, 20 VeeT Transmitter Signal Ground These pins should be connected to signal ground on the host board. The VeeR and VeeT signals are connected together within the module and are isolated from the module case. 2 TX_Fault Transmitter Fault Out (OC) Logic "1" Output = Laser Fault (Laser off before t_fault) This pin is open collector compatible, and should be pulled up to Host Vcc with a 10 k resistor. 16 VccT Transmitter Power Supply This pin should be connected to a filtered +3.3 V power supply on the host board. See Application schematics on page 5 for filtering suggestions. 18 TD+ Transmitter Positive DATA In (PECL) Logic "1" Input = Light on Transmitter DATA inputs are internally AC coupled and terminated with a differential 100 resistor. 19 TD- Transmitter Negative DATA In (PECL) Logic "0" Input = Light on Transmitter DATA inputs are internally AC coupled and terminated with a differential 100 resistor. 9 RS1 TX Rate Select (LVTTL) This pin has an internal 30 k pulldown to ground. A signal on this pin will not affect module performance. Receiver Transmitter Module Definition 4 SDA Two-wire Serial Data Serial ID with SFF 8472 Diagnostics. Module definition pins should be pulled up to Host Vcc with appropriate resistors for the speed and capacitive loading of the bus. See SFF8431. 5 SCL Two-wire Serial Clock Serial ID with SFF 8472 Diagnostics. Module definition pins should be pulled up to Host Vcc with appropriate resistors for the speed and capacitive loading of the bus. See SFF8431. 6 MOD_ABS Module Absent Pin should be pulled up to Host Vcc with 10 k resistor. MOD_ABS is asserted "high" when the SFP+ module is physically absent from the host slot. www.lumentum.com 6 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 3.2 Absolute Maximum Ratings Parameter Symbol Ratings Unit Storage temperature TST -40 to +95 C Operating case temperature TC -40 to +85 C Relative humidity RH 5 - 95 (noncondensing) % Transmitter differential input voltage VD 2.5 V Power supply voltage VCC 0 to +4.0 VP-P Note: Absolute maximum ratings represent the damage threshold of the device. Damage may occur if the device is subjected to conditions beyond the limits stated here. 3.3 Operating Conditions Part Number Temperature Rating Unit PLRXPL-SC-S43-xx-N 0 - 70 C PLRXPL-SE-S43-xx-N -5 - 85 C Note: Performance is not guaranteed and reliability is not implied for operation at any condition outside these limits. 3.4 Electrical Characteristics Parameter Symbol Min. Typical Max. Unit Notes Supply voltage Vcc 3.14 3.3 3.47 V All electrical and optical specifications valid within this range Power consumption Pdiss 480 1000 mW 10.3125 10.52 Gbps 100 mA Data rate BER < 1x10 -12 Transmitter Supply current IccT Common mode voltage tolerance V Data dependent input jitter DDJ 0.10 UI Data input uncorrelated jitter Uj 0.023 UI (rms) Data input total jitter TJ 0.28 UI 231-1 pattern, TP1, BER < 1x10 -12 , at 10.3 Gbps (Notes 1, 8) Input data dependent pulse width shrinkage DDPWS 0.055 UI Reference SFF-8431 Revision 3.2 Eye mask X1 X2 Y1 Y2 0.12 0.33 Reference SFF-8431 Revision 3.2, Figure 22. 5 x 10 -5 hit ratio 350 UI UI mV mV Vcc + 0.3 0.8 V V Laser output disabled after TTD if input level is VIH; Laser output enabled after TTEN if input level is VIL 10 2 s ms Laser output disabled after TTD if input level is VIH; Laser output enabled after TTEN if input level is VIL +37.5 0.4 A V Fault level is IOH and Laser output disabled TFault after laser fault. IOH is measured with a 4.7 k load to Vcc host. VOL is measured at 0.7 mA. 100 s s Fault is VOL and Laser output restored TINI after disable is asserted for TReset , then disabled. 300 ms After hot plug or Vcc 2.97 V 15 95 Transmit disable voltage levels VIH VIL Transmit disable/enable assert time TTD TTEN Transmit fault output levels IOH VOL -50 -0.3 Transmit fault assert and reset times TFault TReset 10 Initialization time TINI www.lumentum.com mVrms 2.0 -0.3 29 -1 pattern, TP1, at 10.3 Gbps (Note 1) 7 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 3.4 Electrical Characteristics (Continued) Parameter Symbol Min. Typical Max. Unit 120 mA Notes Receiver Supply current IccR Data output rise/fall time tr/tf ps 20% - 80%, differential Output common mode voltage 28 7.5 mVrms R LOAD = 25 , common mode 99% jitter 0.42 UI 231-1 pattern, TP4, at 10.3 Gbps (Notes 1, 4, 9) 0.70 UI 231-1 pattern, TP4 , BER < 1x10 -12 , at 10.3 Gbps (Notes 1, 4, 8) 0.35 Reference SFF-8431 Revision 3.2, Figure 23. 5 x 10 -5 hit ratio 425 UI mV mV +37.5 0.4 A V LOS output level IOL TLOSD after light input > LOSD (Note 2) LOS output level VOH TLOSA after light input < LOSA (Note 2) 100 100 s s LOS output level VOL TLOSD after light input > LOSD (Note 2) LOS output level VOH TLOSA after light input < LOSA (Note 2) Total jitter TJ Eye mask X1 Y1 Y2 200 Loss of signal levels IOH VOL -50 -0.3 Loss of signal assert/deassert time TLOSA TLOSD Note: All high frequency measurements are made with the module compliance board as described in SFF8431. 3.5 Optical Characteristics Parameter Symbol Min. Typical Max. Unit p 840 850 860 nm 0.45 nm Note 6 dBm Notes Transmitter Wavelength RMS spectral width Average optical power PAVG -7.3 Optical modulation amplitude OMA * Transmitter dispersion penalty TDP 3.9 dB (Note 3) Relative intensity noise RIN12 OMA -128 dB/Hz 12 dB reflection 860 nm W Receiver Wavelength 840 Maximum input power Pmax +1 Sensitivity (OMA) S -11.1 dBm (Note 7) Stressed sensitivity (OMA) ISI = 3.5 dB -7.5 dBm (Note 4) Loss of signal assert/deassert level LOSD LOSA -11 dBm dBm Chatter-free operation; LOSD is OMA, LOSA is average power Low frequency cutoff FC 0.3 MHz -3 dB, P<-16 dBm -30 850 dBm Note: * Tradeoffs between center wavelength, spectral width, and minimum OMA are used. Refer to the table on Minimum Optical Modulation Amplitude in dBm for details. www.lumentum.com 8 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Minimum Optical Modulation Amplitude in dBm (from IEEE 802.3 Clause 52) Center Wavelength (nm) RMS Spectral Width (nm) Up to 0.05 0.05 - 0.1 0.1 - 0.15 0.15 - 0.2 0.2 - 0.25 0.25 - 0.3 0.3 - 0.35 0.35 - 0.4 0.4 - 0.45 840 - 842 -4.2 -4.2 -4.1 -4.1 -3.9 -3.8 -3.5 -3.2 -2.8 842 - 844 -4.2 -4.2 -4.2 -4.1 -3.9 -3.8 -3.6 -3.3 -2.9 844 - 846 -4.2 -4.2 -4.2 -4.1 -4.0 -3.8 -3.6 -3.3 -2.9 846 - 848 -4.3 -4.2 -4.2 -4.1 -4.0 -3.8 -3.6 -3.3 -2.9 848 - 850 -4.3 -4.2 -4.2 -4.1 -4.0 -3.8 -3.6 -3.3 -3.0 850 - 852 -4.3 -4.2 -4.2 -4.1 -4.0 -3.8 -3.6 -3.4 -3.0 852 - 854 -4.3 -4.2 -4.2 -4.1 -4.0 -3.9 -3.7 -3.4 -3.1 854 - 856 -4.3 -4.3 -4.2 -4.1 -4.0 -3.9 -3.7 -3.4 -3.1 856 - 858 -4.3 -4.3 -4.2 -4.1 -4.0 -3.9 -3.7 -3.5 -3.1 858 - 860 -4.3 -4.3 -4.2 -4.2 -4.1 -3.9 -3.7 -3.5 -3.2 Note: * Tradeoffs between center wavelength, spectral width, and minimum OMA are used. 3.6 Link Length Data Rate Standard Fiber Type Modal Bandwidth at 850 nm (MHz*km) Distance Range (m) Notes 10.3 GBd 62.5/125 m MMF 50/125 m MMF 50/125 m MMF 50/125 m MMF 50/125 m MMF 200 500 900 1500 2000 0.5 - 33 0.5 - 82 0.5 - 150 0.5 - 240 0.5 - 300 5 5 5 5 5 Specification Notes 1. UI (unit interval): one UI is equal to one bit period. For example, 10.3125 Gbps corresponds to a UI of 96.97 ps. 2. For LOSA and LOSD definitions, see Loss of Signal Assert/Deassert Level in Optical Characteristics. 3. Transmitter dispersion penalty is measured using the methods specified in the IEEE standard 802.3-2005 Clause 52. 4. Measured with stressed eye pattern as per IEEE standard 802.3-2005, Clause 52. 5. Distances, shown in the "Link Length" table, are calculated for worst-case fiber and transceiver characteristics based on the optical and electrical specifications shown in this document using techniques specified in IEEE 802.3. These distances are consistent with those specified for 10GBASE-SR and 10GBASE-SW. In the nominal case, longer distances are achievable. 6. The maximum transmitter output power is the lesser of the Class 1 laser eye safety limit and -1 dBm (the maximum receiver input power limit per the IEEE 802.3 Clause 52 specification). 7. Sensitivity is for informational purposes only. 8. The data pattern for the total jitter measurement is one of IEEE 802.3 Clause 52.9 Pattern 1, Pattern 3, or valid 64B/66B data traffic. 9. 99% jitter is as defined in SFF-8431 Revision 3.2. 99% jitter has the same definition as "all but 1% for jitter" as used in IEEE 802.3 Clause 52.9.9 and is defined as the time from the 0.5th to the 99.5th percentile of the jitter histogram. www.lumentum.com 9 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 3.7 Regulatory Compliance The transceiver is RoHS 6/6 compliant and complies with international EMC (Electromagnetic Compatibility) and product safety regulations and standards. Feature Test Method Performance UL/CSA 60950-1 UL certificate for US and CAN IEC/EN 60950-1 CB certificate Flame class V-0 Passes Needle Flame Test for component flammability verification Low Voltage Directive 2014/35/EU Certified to harmonized standards listed; Declaration of Conformity issued IEC/EN 60825-1, 60825-2 CB certificate U.S. 21 CFR 1040.10 FDA/CDRH certified with accession number EMC Directive 2014/30/EU Class B digital device with a minimum -6dB margin to the limit when tested in a representative host. Tested frequency range: 30 MHz to 40 GHz or 5th harmonic (5 times the highest frequency), whichever is less Good system EMI design practice is required to achieve Class B margins at the system level Safety Product Safety Laser Safety Electromagnetic Compatibility Radiated Emissions FCC rules 47 CFR Part 15 CISPR 22 AS/NZS CISPR22 EN 55022 ICES-003, Issue 5 VCCI regulations Immunity EMC Directive 2014/30/EU Certified to harmonized standards listed; Declaration of Conformity issued CISPR 24 EN 55024 ESD IEC/EN 61000-4-2 Exceeds Requirements. Withstands discharges of 8kV contact, 15kV air Radiated Immunity IEC/EN 61000-4-3 Exceeds Requirements. Field strength of 10V/m from 10 MHz to 6 GHz. No effect on transmitter / receiver performance is detectable between these limits. Restriction of Hazardous Substances (RoHs) RoHS www.lumentum.com EU Directive 2011/65/EU Compliant per the Directive 2011/65/EU of the European Parliament and of the Council of 8 June 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (recast). A RoHS Certificate of Compliance (C of C) is available upon request. The product may use certain RoHS exemptions 10 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 3.8 PCB Layout All dimensions are in millimeters Figure 4 Board layout All dimensions are in millimeters Figure 5 www.lumentum.com Detail layout 11 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 3.9 Front Panel Opening All dimensions are in millimeters Figure 6 3.10 Module Outline All dimensions are in millimeters Figure 7 www.lumentum.com 12 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 3.11 Transceiver Belly-to-belly Mounting All dimensions are in millimeters Figure 8 www.lumentum.com 13 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Section 4 Related Information Other information related to the SFP+ optical transceiver includes: Section 4.1 Digital diagnostic monitoring and serial ID operation Section 4.2 Package and handling instructions Section 4.3 ESD discharge (ESD) Section 4.4 Laser safety 4.1 Digital Diagnostic Monitoring and Serial ID Operation The PLRXPL-Sx-S43-22-N optical transceiver is equipped with a two-wire serial EEPROM that is used to store specific information about the type and identification of the transceiver as well as real-time digitized information relating to the transceiver's performance. See the Small Form Factor Committee document number SFF-8472 Revision 10.3, dated December 1, 2007 for memory/address organization of the identification data and digital diagnostic data. The enhanced digital diagnostics feature monitors five key transceiver parameters which are internally calibrated and should be read as absolute values and interpreted as follows: Transceiver Temperature in degrees Celsius: Internally measured. Represented as a 16 bit signed two's complement value in increments of 1/256C from -40 to +85C with LSB equal to 1/256C. Accuracy is 3C over the specified operating temperature and voltage range. Vcc/Supply Voltage in Volts: Internally measured. Represented as a 16-bit unsigned integer with the voltage defined as the full 16-bit value (0 - 65535) with LSB equal to 100 uV with a measurement range of 0 to +6.55 V. Accuracy is three percent of nominal value over the specified operating temperature and voltage ranges. TX Bias Current in mA: Represented as a 16-bit unsigned integer with current defined as the full 16-bit value (0 - 65535) with LSB equal to 2 uA with a measurement range of 0 - 131 mA. Accuracy is 10 percent of nominal value over the specified operating temperature and voltage ranges. Reading the data The information is accessed through the SCL and SDA connector pins of the module. The SFF-8431 Revision 3.2 specification contains all the timing and addressing information required for accessing the data in the EEPROM. The device address used to read the Serial ID data is 1010000X(A0h), and the address to read the diagnostic data is 1010001X(A2h). Any other device addresses will be ignored. MOD_ABS, pin 6 on the transceiver, is connected to Logic 0 (Ground) on the transceiver. SCL, pin 5 on the transceiver, is connected to the SCL pin of the EEPROM. SDA, pin 4 on the transceiver, is connected to the SDA pin of the EEPROM. The EEPROM Write Protect pin is internally tied to ground with no external access, allowing write access to the customerwritable field (bytes 128 - 247 of address 1010001X). Note: address bytes 0 - 127 are not write protected and may cause diagnostic malfunctions if written over. Decoding the data The information stored in the EEPROM, including the organization and the digital diagnostic information, is defined in the Small Form Factor Committee document SFF-8472 Revision 10.3, dated December 1, 2007. Data Field Descriptions Address( 1010000X)(A0h) 0 Serial ID Information; Defined by SFP MSA 95 127 Address( 1010001X)(A2h) 0 55 95 Lumentum-Specific Information 119 127 Alarm and Warning Limits Reserved for External Calibration Constants Real Time Diagnostic Information Lumentum-Specific Information Nonvolatile, customerwriteable, field-writeable area TX Output Power in mW: Represented as a 16-bit unsigned integer with the power defined as the full 16-bit value (0 - 65535) with LSB equal to 0.1 uW. Accuracy is 2 dB over the specified temperature and voltage ranges over the range of -7 dBm to -1 dBm. Data is not valid when transmitter is disabled. Reserved for SFP MSA 247 RX Received Optical Power in mW: Represented as average power as a 16-bit unsigned integer with the power defined as the full 16-bit value (0 - 65535) with LSB equal to 0.1 uW. Accuracy is 3 dB over the specified temperature and voltage ranges over the power range of -12 dBm to 0 dBm. www.lumentum.com 255 255 Lumentum-Specific Information 14 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Serial ID Data and Map Memory Address Value Comments Memory Address Value Comments 0 03 SFP Transceiver 92 68 1 04 SFP with Serial ID 2 07 LC Connector 3-10 1000000020400C80 Diagnostic monitoring implemented, internally calibrated, Receiver Power Measurement type is Average Power 11 06 64B/66B 93 F0 12 67 Nominal Bit rate of 10.3 Gbps 13 00 Rate Identifier (for Rateselectable modules) Alarms and Warnings, TX_ Fault and Rx_LOS monitoring implemented, TX_Disable Control and Monitoring. 94 03 14 00 Single-mode fiber not supported SFF-8472 Revision 10.3 compliant 95 CC_EXT 15 00 Single-mode fiber not supported Check Code; Lower 8 bits of sum from byte 64 through 94 16 08 82 meters of OM2 50/125 m multimode fiber 17 03 33 meters of OM1 62.5/125 m multimode fiber 96-127 Lumentum-specific EEPROM 128-255 Reserved for SFF-8079 Diagnostics Data Map 18 00 Copper not supported Memory Address Value Comments 19 1E 300 meters of OM3 50/125 m multimode fiber 00-01 Temp High Alarm MSB at low address 02-03 Temp Low Alarm MSB at low address 20-35 Lumentum Vendor Name (ASCII) 04-05 Temp High Warning MSB at low address 36 00 Reserved 06-07 Temp Low Warning MSB at low address 37-39 00019C IEEE Company ID (ASCII) 08-09 Voltage High Alarm MSB at low address 40-55 PLRXPLSxS43xxN Part Number (ASCII), x = part number variable 10-11 Voltage Low Alarm MSB at low address Revision of part number (ASCII) 12-13 Voltage High Warning MSB at low address 14-15 Voltage Low Warning MSB at low address Wavelength of laser in nm; 850 16-17 Bias High Alarm MSB at low address 18-19 Bias Low Alarm MSB at low address Unallocated 20-21 Bias High Warning MSB at low address 22-23 Bias Low Warning MSB at low address 24-25 TX Power High Alarm MSB at low address 26-27 TX Power Low Alarm MSB at low address 28-29 TX Power High Warning MSB at low address 30-31 TX Power Low Warning MSB at low address 32-33 RX Power High Alarm MSB at low address 34-35 RX Power Low Alarm MSB at low address 36-37 RX Power High Warning MSB at low address 38-39 RX Power Low Warning MSB at low address 40-55 Reserved For future monitoring quantities 56-59 60-61 0352 62 63 CC_BASE Check Code; Lower 8 bits of sum from byte 0 through 62 64 00 Conventional uncooled laser, Class 1 power level, Conventional limiting receiver output 65 1A 66 00 67 00 Tx_Disable, Tx Fault, Loss of Signal implemented 68-83 Serial Number (ASCII) 84-91 Date Code (ASCII) www.lumentum.com 15 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Diagnostics Data Map (continued) Memory Address Value Comments Memory Address Value Comments 56-59 RP4 External Calibration Constant 102 TX Power MSB (Note 1) Measured TX output power AD values 60-63 RP3 External Calibration Constant 103 TX Power LSB (Note 1) 104 RX Power MSB 64-67 RP2 External Calibration Constant 105 RX Power LSB 68-71 RP1 External Calibration Constant 106 Reserved MSB 72-75 RP0 External Calibration Constant 107 Reserved LSB 108 Reserved MSB 109 Reserved LSB 110-7 Tx Disable State Digital State of Tx Disable Pin 110-6 Soft Tx Disable Control Writing "1" OR pulling the Tx_Disable pin will disable the laser 110-5 Reserved Rate Select State Digital State of Rate Select Pin 76-77 Islope External Calibration Constant 78-79 Ioffset External Calibration Constant 80-81 TPslope External Calibration Constant 82-83 TPoffset External Calibration Constant Measured RX input power AD values For 1st future definition of digitized analog input For 2nd future definition of digitized analog input 84-85 Tslope External Calibration Constant 110-4 86-87 Toffset External Calibration Constant 110-3 Soft Rate Select Control Writing to this bit has no effect 88-89 Vslope External Calibration Constant 110-2 Tx Fault State Digital State 110-1 LOS State Digital State 90-91 Voffset External Calibration Constant 110-0 Data Ready State Digital State; "1" until transceiver is ready 92-94 Reserved Reserved 111 Reserved Reserved 95 Checksum Low order 8 bits of sum from 0 - 94 112-119 Refer to SFF-8472 Revision 10.3 96 Temperature MSB Internal temperature AD values Optional alarm & warning flag bits (Note 2) 120-127 Vendor specific Lumentum specific 97 Temperature LSB 128-247 Field writeable EEPROM 98 Vcc MSB User/Customer EEPROM 248-255 Vendor specific Vendor specific control 99 Vcc LSB 100 TX Bias MSB (Note 1) 101 TX Bias LSB (Note 1) www.lumentum.com Internally measured supply voltage AD values Note : TX Bias Current AD values 1. During Tx disable, Tx bias and Tx power will not be monitored. 2. Alarm and warning are latched. The flag registers are cleared when the system Reads AND the alarm/warning condition no longer exists. 16 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant 4.2 Package and Handling Instructions This product is not compatible with any aqueous wash process. Process plug The PLRXPL-Sx-S43-22-N optical transceiver is supplied with a process plug. This plug protects the transceiver's optics during standard manufacturing processes by preventing contamination from air borne particles. 4.4 Laser Safety The transceiver is certified as a Class 1 laser product per international standard IEC 60825-1:2007 2nd edition and is considered non-hazardous when operated within the limits of this specification. The transceiver complies with 21 CFR 1040.10 except for deviations pursuant to Laser Notice No. 50 dated June 24, 2007. Note: It is recommended that the dust cover remain in the transceiver whenever an optical fiber connector is not inserted. Recommended cleaning and de-greasing chemicals Lumentum recommends the use of methyl, isopropyl and isobutyl alcohols for cleaning. Do not use halogenated hydrocarbons (trichloroethane, ketones such as acetone, chloroform, ethyl acetate, MEK, methylene chloride, methylene dichloride, phenol, N-methylpyrolldone). Flammability The housing is made of cast zinc and sheet metal. 4.3 Electrostatic 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 handled only 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. Caution Operating this product in a manner inconsistent with intended usage and specifications may result in hazardous radiation exposure. Use of controls or adjustments or performance of procedures other than these specified in this product data sheet may result in hazardous radiation exposure. Tampering with this laser product or operating this product outside the limits of this specification may be considered an `act of manufacturing' and may require recertification of the modified product. Viewing the laser output with certain optical instruments, such as eye loupes, magnifiers, microscopes, within a distance of 100 mm may pose an eye hazard. 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 may require the application to reacquire synchronization at the higher layers (serializer/deserializer chip). www.lumentum.com 17 10 G SFP+ 850 NM Limiting Transceiver, 10 Gigabit Ethernet Compliant Ordering Information For more information on this or other products and their availability, please contact your local Lumentum account manager or Lumentum directly at customer.service@lumentum.com. Part Number Product Description PLRXPL-SC-S43-22-N 10 G SFP+ SR compliant, limiting electrical interface, 0 - 70C, 5% Vcc, no rate select, generic PLRXPL-SE-S43-22-N 10 G SFP+ SR compliant, limiting electrical interface, -5 - 85C, 5% Vcc, no rate select, generic North America Toll Free: 844 810 LITE (5483) Outside North America Toll Free: 800 000 LITE (5483) China Toll Free: 400 120 LITE (5483) 400 North McCarthy Boulevard Milpitas, CA 95035 USA (c) 2016 Lumentum Operations LLC Product specifications and descriptions in this document are subject to change without notice. www.lumentum.com plrxpl-sx-s43-22-n-ds-cms-ae 30162598 902 0416