PL-XPL-00-S13 Small Form Factor Pluggable (SFP) transceiver provi
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Gbps Shortwave Transceiver
PL-XPL-00-S13
Small Form Factor Pluggable (SFP) transceiver provides superior performance Fibre Channel short reach Gigabit Ethernet applications. star performer Picolight's family Accelar products customized high speed, short reach LAN, intra-POP applications. features Picolight's highly reliable oxide vertical-cavity surface-emitting laser (VCSEL) coupled optical connector. small size allows high-density board designs that, turn, enable greater total aggregate bandwidth. pluggability module design further allows manufacturers populate optical ports later build cycle, providing just-in-time inventory cost control. complies with Fibre Channel 100-M5/M6-SN-1 802.3z 1000BASE-SX standards.
benefits Compliant with industry-wide physical optical specifications Superior performance Enables higher port densities Proven high reliability In-house precision alignment Applications High-speed storage area networks Switch interconnect Mass storage systems interconnect Host adapter interconnect Computer cluster cross-connect Enterprise switch interconnects Custom high-speed data pipes
Highlights
Pluggability enables just-in-time (JIT) inventory control populated cards allowing separate control cards transceivers MSA-compliant small form factor footprint half size current implementations, doubling port density reducing overall system cost Host card manufacturing process simplified moving optical transceiver placement manufacturing line even deployment phase Enhanced management feature allows further monitoring transceiver performance system stability Signal detect transmitter fault functions enable system status indicators debugging through system management Serial allows customer vendor system specific information placed transceiver Full cast metal housing provides superior performance
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Gbps Shortwave Transceiver
PL-XPL-00-S13 features Utilizes Picolight high reliability, high speed, oxide VCSEL pluggable compliant Compliant with Fibre Channel 100M5/M6-SN-I 802.3z 1000BASE-SX compliant power consumption High quality optical connector operating range error rate 1x10-12 enhanced bandwidth 50/125 multimode fiber 1.062 1.25 Gbps enhanced bandwidth 62.5/125 multimode fiber 1.0625 Gbps transmit disable, signal detect transmitter fault functions CDRH 60825-1 Class laser safe Class compliant Class MIL-STD Method 3015 UL-94 certified Internal Coupling Both Transmit Receive Data Signals Supplied with Dust Cover
.467 11.86
Single +3.3 power supply
PL-XPL-00-S13 transceiver cost effective, gigabit serial optical transceiver that compliant with Fibre Channel, 100-M5/M6-SN-I Gigabit Ethernet 1000BASE-SX standards. This transceiver features Picolight, high reliability, High Speed, Oxide VCSEL Laser coupled optical connector. This transceiver meets Class laser safety requirements. PL-XPL-00-S13 GBIC functionality width. transceiver complies with Small Form Factor Pluggable Multisource Agreement (SFP-MSA).
Ordering information
Part Number: PL-XPL-00-S13-05 Description: Gbps, Rate-Select, Transceiver Contact Information: Picolight Incorporated 4665 Nautilus Court South Boulder, 80301 Tel: 303.530.3189 E-mail: sales@picolight.com site: www.picolight.com
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Gbps Shortwave Transceiver
Section
Functional description
PL-XPL-00-S13 VCSEL Gigabit Transceiver designed transmit receive 8B/10B encoded serial optical data over 50/125 62.5/125 optical fiber.
Transmitter
transmitter converts 8B/10B encoded serial PECL electrical data into serial optical data meeting requirements Fibre Channel 100-M5/M6-SN-I IEEE 802.3z 1000 Base-5x specifications. Transmit data lines (TD+ TD-) internally coupled with differential termination. open collector compatible Transmit Disable (TDis) provided. This internally terminated with resistor Vcct. logic "1," connection this will disable laser from transmitting. logic this provides normal operation. transmitter internal monitor diode that used ensure constant optical power output across supply voltage temperature variations. open collector compatible Transmit Fault (TFault) provided. Transmit Fault signal must pulled high host board proper operation. logic output from this indicates that transmitter fault occurred, transceiver fully seated transmitter functioning. logic this indicates normal operation.
Receiver
receiver converts 8B/10B encoded serial optical data into serial PECL electrical data. Receive data lines (RD+ RD-) internally coupled with differential source impedance, must terminated with differential load. open collector compatible Loss Signal provided. must pulled high host board proper operation. logic indicates that light been detected input receiver (see Section Optical characteristic, Loss Signal Assert/Deassert Time page logic output indicates that insufficient light been detected proper operation. Power supply filtering recommended both transmitter receiver. Filtering should placed host assembly close pins possible optimal performance. Recommended "Application Schematics" shown Figure page also Picolight Optical Transceiver User Guide. Document number 16000041, Application Notes Grounding, Shielding Filtering.
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Gbps Shortwave Transceiver
Figure Block diagram
Transmitter Power Supply
Transmitter Disable Vcc_T TDis Transmitter Positive Data
Optical
TRANSMITTER (VCSEL DRIVER)
TDT_Gnd T_Fault
Transmitter Negative Data Transmitter Fault Transmitter Signal Ground MOD_DEF(1) Serial Clock MOD_DEF(2) Serial Data MOD_DEF(0) Receiver Power Supply Vcc_R Vcc_R
EEPROM
Optical
Receiver Negative Data
PREAMP
Rate
RECEIVER (POST-AMP)
Receiver Positive Data
R_Gnd
R_Gnd
Loss Signal Connected Receiver Signal Ground
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Section
Figure
Application schematics
Recommended connections PL-XPL-00-S13 transceiver shown Figure below. Recommended application schematic PL-XPL-00-S13 transceiver
Receiver Fault)
PECL Driver DATA)
Open Collector Driver Disable)
PSFF Host Connector
VeeT Fault Disable MOD_DEF(2) MOD_DEF(1) MOD_DEF(0) VeeR VeeT VeeT VccT VccR VeeR VeeR PECL Receiver DATA) 0.1µ Input
Open Collector Bidirectional {Mod_Def(2)}
Open Collector Bidirectional {Mod_Def(1)}
Receiver {Mod_Def(0)}
Connect
VeeR
Receiver (LOS)
Notes
Power supply filtering components should placed close pins host connector possible optimal performance. PECL driver receiver will require biasing networks. Please consult application notes from suppliers these components. MOD_DEF(2) MOD_DEF(1) should bi-directional open collector connections order implement serial (MOD_DEF[0,1,1]) PL-XPL-00-S13 transceiver. Transmission lines should differential traces. recommended that termination resistor PECL Receiver placed beyond input pins PECL Receiver. Series Source Termination Resistors PECL Driver (R1+R2) should placed close driver output pins possible.
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Section
Technical data
function definitions below Absolute maximum ratings page Electrical characteristics page Optical characteristic page Link length page Regulatory compliance page layout page Front panel opening page Module outline page Transceiver belly-to-belly mounting page
Technical data related Gbps Shortwave Transceiver includes: Section Section Section Section Section Section Section Section Section Section 3.10
function definitions
Transceiver descriptions
Figure
VeeT VeeT TDTXFault Disable VeeT MOD-DEF(2) VccT
Towards Bezel
MOD-DEF(1) VccR MOD-DEF(0) VeeR RDVeeR VeeR VeeR
Towards ASIC
Table Transceiver descriptions
Number Symbol Name Description Receiver Loss Signal (OC) Sufficient optical signal potential 1x10-12 Logic Insufficient optical signal potential 1x10-12 Logic This open collector compatible, should pulled Host with resistor. These pins should connected signal ground host board. Light Logic Output Receiver DATA output internally coupled series terminated with resistor.
VeeR
Receiver Signal Ground Receiver Negative DATA (PECL)
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Table Transceiver descriptions (continued)
Number Symbol Name Receiver Positive DATA (PECL) Receiver Power Supply Description Light Logic Output Receiver DATA output internally coupled series terminated with resistor. This should connected filtered +3.3V power supply host board. Specification notes page filtering suggestions. connection inside module. Transmitter Disable Transmitter Disable (LVTTL) Transmitter Signal Ground Transmitter Fault (OC) Logic Input connection) Laser Logic Input Laser This internally pulled VccT with resistor. These pins should connected signal ground host board. Logic Output Laser Fault (Laser before t_fault) Logic Output Normal Operation This open collector compatible, should pulled Host with resistor. This should connected filtered +3.3V power supply host board. Application schematics page filtering suggestions. Logic Input Light Transmitter DATA inputs internally coupled terminated with differential resistor. Logic Input Light Transmitter DATA inputs internally coupled terminated with differential resistor. Module Definition MOD_DEF (0:2) Module Definition Identifiers Serial implemented (See Annex Module Definition pins should pulled Host with resistors.
VccR
VeeT Fault
VccT
Transmitter Power Supply Transmitter Positive DATA (PECL) Transmitter Negative DATA (PECL)
Absolute maximum ratings
Symbol Ratings +100 +3.6 Unit
Parameter Storage Temperature Operating Case Temperature Power Supply Voltage Transmitter Differential Input Voltage Relative Humidity
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Electrical characteristics
70°C, 3.15V 3.45V unless specified otherwise)
Parameter Supply Voltage Data Rate Symbol 3.15 Typical 1.25 Transmitter Supply Current Data Input Voltage Swing Data Input Rise/Fall Time Data Input Skew Data Input Deterministic Jitter Data Input Total Jitter Transmit Disable Voltage Level Transmit Disable/Enable Assert Time Transmit Fault Output Voltage Level Transmit Fault Assert Reset Times TTEN TFault TReset TINI Receiver Supply Current Data Output Voltage Swing Data Output Rise/Fall Time Data Output Skew Data Output Deterministic Jitter Added Data Output Total Jitter Loss Signal Voltage Level Loss Signal Assert/Deassert Time TLOSA TLOSD -1.0 ICCR 0.38 0.65 mVp-p RLOAD Differential 80%, Differential RLOAD Differential ±K28.5 pattern, 27-1 pattern, 1x10-12,1 output level TLOSD after light input LOSD, output level TLOSA after light input LOSA, -1.0 -1.0 ICCT VTDp-p 2000 0.10 0.24 mVp-p Transmit fault level Laser output disabled TFault after laser fault. Transmitter fault Laser output restored TINI after transmitter disable asserted TReset, then disabled. After Plug 3.15V ±K28.5 pattern, 27-1 pattern, 1x10-12, Laser output disabled after input level VIH; Laser output enabled after TTEN input level Differential, peak peak, 80%, Differential, 3.45 1.30 Unit Gbps 1x10-12 Notes1
Initialization Time
Specification notes page referenced notes.
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Optical characteristic
70°C, 3.15V 3.45V unless specified otherwise)
Parameter Symbol Min. Typical Transmitter Wavelength Spectral Width Average Optical Power Optical Output Rise/Fall Time Deterministic Jitter Added Total Jitter Added Relative Intensity Noise PAVG trise/fall -125 Receiver Wavelength Maximum Input Power Sensitivity (OMA) Stressed Sensitivity (OMA) Loss Signal Assert/Deassert Level Hysteresis Frequency Cutoff Optical Modulation Bandwidth Optical Return Loss LOSD LOSA LOSDLOSA 1400 µWp-p µWp-p optical Chatter Free Operation P<-16 P<-16 Equivalent -17dBm Equivalent -13.65dBm Chatter Free Operation -9.5 -6.0 0.85 -1.8 0.20 0.43 -118 dB/Hz ±K28.5 pattern,1 27-1 pattern, BER<1x10-12, 1GHz, reflection Unit Notes1
Specification notes page referenced notes.
Link length
70°C, 3.15V 3.45V unless specified otherwise)
Data Rate Standard 1.0625 Fibre Channel 100-M5-SN-I 100-M6-SN-I 1.25 IEEE 802.3z 1000BASE-SX Fiber Type 62.5/125 50/125 50/125 62.5/125 50/125 50/125 Specification notes page referenced notes. Modal Bandwidth (MHz*km) 2200 2000 Distance Range Notes1
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Specification notes
(Unit Interval): equal time. example, 1.125 Gbits/s corresponds 880ps. LOSA LOSD definitions Loss Signal Assert/Deassert Level Section Optical characteristic page SERDES typically supply 1600 mVp-p (differential). Therefore, attenuation transmitted signal necessary meet maximum data input voltage swing specification. recommended that series source terminating resistors placed close SERDES output possible attenuate signal, improve EMI, improve signal integrity. Measured with stressed pattern FC-PI (Fibre Channel) using worst case specifications. optical modulation bandwidth, sensitivity, stressed sensitivity specifications, Section Optical characteristic page Distances, shown "Link Length" table, distances specified Fibre Channel IEEE 802.3z standards. "Link Length" distances calculated worst case fiber transceiver characteristics based optical electrical specifications shown this document using techniques utilized IEEE 802.3z (Gigabit Ethernet). nominal case, longer distances achievable. Bandwidth Enhanced MMF.
Regulatory compliance
PL-XPL-00-S13 complies with common ESD, EMI, Immunity, Component recognition requirements specification (see details Table page 10). ESD, EMI, Immunity dependent overall system design. Information included herein intended figure merit designers basis design decisions.
Table
Feature
Regulatory compliance
Test Method U.S. 21CFR 1040.10 1040.11 60825-1 1988 60825-2 1997 MIL-STD 883C; Method 3015.4 61000-4-2: 1999 Part Subpart Class CISPR 1997 55022: 1998 Class VCCI Class 61000-4-3: 1998 Performance CDRH compliant Class laser safe. Accession #9922782 Certificate Class Withstand discharges using "Human Body Model" probe Noise frequency range: GHz. Good system design practice required achieve Class margins.
Laser Safety
Electrostatic Discharge (ESD) electrical pins Electrostatic Discharge (ESD) optical connector Electromagnetic Interference (EMI)
Immunity
Field strength RMS, from GHz. effect transceiver performance detectable between these limits. File File Certificate
Component
1950 C22.2 #950 60950: 1999
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Gbps Shortwave Transceiver
layout
Board layout
1.359 1.182 .197 .394 .098 .197 .283 .098 THIS AREA DENOTES COMPONENT KEEP-OUT (TRACES ALLOWED) .280 NOTES: DATUM BASIC DIMENSIONS ESTABLISHED CUSTOMER PADS VIAS CHASSIS GROUND, PLACES THRU HOLES, PLATING OPTIONAL .033±.002 .004 .067 .145 .334
Figure
.224 .436
.561
.470
.338
.640
.067
CROSSED-HATCHED AREA DENOTES COMPONENT TRACE KEEP-OUT (EXCEPT CHASSIS GROUND) 1.055 1.626 1.665 NOTE: UNLESS SPECIFIED, TOLERANCES .005
.079
.041±.004 .004 .037±.002 .004
Figure
Detail layout
.126 .035 .197
.031
.430
.031
.415
.378
.020±.001 .002
.061±.002 .004
.079±.002 .002
NOTE: UNLESS SPECIFIED, TOLERANCES .005 DETAIL SCALE
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.470
.378
.189
.470
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Gbps Shortwave Transceiver
Front panel opening
Figure
.400±.004 10.160±0.10 .020 [0.51]
.184 4.67
.640 16.26 RECOMMENDED MINIMUM PITCH .600±.004 15.240±0.10
.616±.020 15.63±0.51 .137±.012 3.48±0.30 .277 7.04 +1.52 +.060 1.067 .042 0.25 .010
NOTE: UNLESS SPECIDIED, TOLERANCES
.005 0.13]
Module outline
Figure
2.185 55.50
.545 13.84
.530 13.46
.079 2.01 .040 1.01 .516 13.11
.070 1.78 1.750 44.45 .079 2.01
.354 8.99
.098 2.49
1.395 35.43 1.645 41.78
NOTE: UNLESS SPECIFIED, TOLERANCES .005 (0.127)
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3.10 Transceiver belly-to-belly mounting
Figure
.600±.004 .640±.004 .042 .063 .409±.004 .135
.138
Section
Related information
Annex Serial operation below Package handling instructions page Discharge (ESD) page safety page
Other information related Gbps Shortwave Transceiver includes: Section Section Section Section
Annex Serial operation
PL-XPL-00-S13 equipped with 2-wire serial EEPROM that used store information about module. Section "Module Definition Interface Data Field Description" SFP-MSA Definitions Host Board Layout document. information accessed through MOD_DEF(1), MOD_DEF(2) connector pins module.
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Reading data
specification this EEPROM (ATMEL AT24CO1A Type) contains timing addressing information required accessing data. MOD_DEF(0), PL-XPL-00-S13 transceiver, connected Logic (Ground) transceiver. MOD_DEF(1), PL-XPL-00-S13 transceiver, connected EEPROM. MOD_DEF(2), PL-XPL-00-S13 module, connected EEPROM. EEPROM internally tied with external access, permanently protecting data stored within. write commands will ignored. device address pins, connected ground, fixing device address used read data [10100001], other device addresses will ignored.
Decoding data
information stored EEPROM including organization defined Small Form-Factor Pluggable Multisource (SFP-MSA) Definitions Host Board Layout document, dated 3/13/00, Section
Package handling instructions
PL-XPL-00-S13 supplied with dust cover. This plug protects transceiver's optics during standard manufacturing processes preventing contamination from borne particles. Note: recommended that dust cover remain transceiver whenever optical fiber connector inserted.
Process plug
Recommended cleaning de-greasing chemicals
Picolight recommends methyl, isopropyl isobutyl alcohols cleaning. halogenated hydrocarbons (e.g. trichloroethane, ketones such acetone, chloroform, ethyl acetate, MEK, methylene chloride, methylene dichloride, phenol, N-methylpyrolldone).
Flammability
PL-XPL-00-S13 housing made cast zinc.
Discharge (ESD)
Normal precautions required during handling this module. This transceiver shipped protective packaging. should removed from packaging handled only protected environment utilizing standard grounded benches, floor mats, wrist straps.
Handling
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Gbps Shortwave Transceiver
Test operation
most applications, optical connector will protrude through system chassis subjected same environment system. Once properly installed system, this transceiver should meet exceed common testing practices fulfill system requirements. Typical optical transceivers, this module's receiver contains highly sensitive optical detector amplifier which become temporarily saturated during strike. This could result short burst errors. Such event might require that application re-acquire synchronization higher layers (e.g. Serializer/Deserializer chip).
safety
PL-XPL-00-S13 international Class laser product 825-1: 1993, CDRH, 1040 Laser Safety Requirements. PL-XPL-00-S13 safe device when operated within limits this specification. Operating this product manner inconsistent with intended usage specification result hazardous radiation exposure.
CAUTION!
Tampering with this laser based product operating this product outside limits this specification considered "manufacturing," will require, under law, recertification modified product with U.S. Food Drug Administration 1040).
CAUTION!
optical instruments with this product will increase hazard. normal operating current, optical output power with unaided much wavelength Approximately times this power level could collected with loupe. Under failure condition, this level could increase factor two.
Published ©Picolight Incorporated. rights reserved. Information this document provided connection with Picolight Incorporated ("Picolight") products. These materials provided Picolight service customers used informational purposes only. Picolight assumes responsibility errors omissions these materials. Picolight make changes pricing, specifications, product descriptions time, without notice. Picolight makes commitment update this information shall have responsibility whatsoever conflicts incompatibilities arising from future changes specification product descriptions. license, expressed implied, intellectual property rights granted this document. Except provided Picolight's Terms Conditions Sale such products, Picolight assumes liability whatsoever. THESE MATERIALS PROVIDED WITHOUT WARRANTY KIND, EITHER EXPRESSED IMPLIED, RELATING SALE AND/OR PICOLIGHT PRODUCTS INCLUDING LIABILITY WARRANTIES RELATING FITNESS PARTICULAR PURPOSE, CONSEQUENTIAL INCIDENTAL DAMAGES, MERCHANTABILITY, INFRINGEMENT PATENT, COPYRIGHT OTHER INTELLECTUAL PROPERTY RIGHT. PICOLIGHT FURTHER DOES WARRANT ACCURACY COMPLETENESS INFORMATION, TEXT, GRAPHICS OTHER ITEMS CONTAINED WITHIN THESE MATERIALS. PICOLIGHT SHALL LIABLE SPECIAL, INDIRECT INCIDENTAL, CONSEQUENTAL DAMAGES, INCLUDING WITHOUT LIMITATION, LOST REVENUES LOST PROFITS, WHICH RESULT FROM THESE MATERIALS.
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