AFBR-8420Z CFP2, 850 nm, 100GBASE-SR10 Compliant Pluggable 100G Ethernet Optical Transceiver Data Sheet Description Features Avago Technologies’ AFBR-8420Z CFP2 SR10 is a ten channel pluggable, parallel, fiber optic transceiver for 100Gbps Ethernet Applications. The transceiver supports high speed serial links over multi-mode fiber at signalling rates up to 103.125Gb/s (a serial line rate of 10.3125Gb/s per channel) for link distances up to 100m with OM3 fiber or 150m with OM4 fiber. The product is compliant with the CFP2 industry agreement for mechanical and low speed electrical specifications. High speed electrical and optical specifications are compliant with IEEE 802.3ba Clause 86 for 100GBase-SR10 media, Clause 86A for CPPI electrical interface and Clause 45 for MDIO. • Links up to 100m using OM3 fiber and 150m using OM4 fiber • CFP2 Power Dissipation Class 2 with CDRs in bypass. CDRs are bypassed for lower power dissipation by default • CFP2 Power Dissipation Class 3 with CDRs ON • Proven High Reliability 850nm technology: Avago VCSEL array transmitter and Avago PIN array receiver. • Compliant to 100GbE specifications 802.3ba (100GBase-SR10 and CPPI) up to 100m OM3 and 150m OM4 fiber. • Compliant to 40GbE specifications 802.3ba (40GBaseSR4 and XLPPI) up to 100m OM3 and 150m OM4 fiber. • Compatible with 10GE SR specifications per 802.3ae (10GBASE-SR) up to 100m OM3 fiber. • OTU4 Support at 11.18Gb/s per channel • CFP2 10x10Gbit/s Host Pin Map • Class 1 eye safe per IEC60825-1 and CDRH • Wide case temperature range (0°C to 70°C) • Utilizes standard 24 lane optical fiber with MTP® (MPO) optical connector for high density and thin, lightweight cable management • Diagnostic features per CFP2 using MDIO. Real time monitoring of: - Transmitter average optical power - Received average optical power - Laser bias current - Temperature - Supply Voltage • Host Lane Loopback (eLoop) and Network Lane Loopback (oLoop) functionality • Integrated CDRs on each transmit and receive lane • CDRs can be bypassed for lower power dissipation • CFP Management Interface Specification Version 2.2 • CFP2 Hardware Specification Revision 1.0 • Compliant to RoHS directives The transceiver electrical interface uses a 104 contact edge type connector, as specified in the CFP2 industry agreement. The optical interface uses a 24-fiber MTP® (MPO) fiber optic connector. This transceiver incorporates Avago Technologies proven integrated circuit and VCSEL technologies to provide reliable, high performance and consistent service. Digital diagnostic monitoring information (DMI) is present in the AFBR-8420Z per the CFP2 industry agreement, providing real time monitoring information of transmitter, receiver and module operating conditions over the MDIO interface. Applications • 100Gb/s Ethernet Interconnects (802.3ba Clause 86) • 10 x 10Gb/s Ethernet Interconnects (802.3ae Clause 52) • Datacom/Telecom Switch and Router Connections • Data Aggregation and Density Applications Transceiver Block Diagram CDR By Pass Electrical Input Electrical Output Rx CDRs CDR By Pass MDC MDIO MOD_RSTn MOD_LO PWR GLB TX DIS PRG_CNTL [3:1] PRG_ALRM [3:1] GLB Rx_LOS GLB_ALRMn MOD_ABS Tx Laser Driver IC VCSEL Array Rx Preamp + PIN Array 100 GBASE-SR10 Optical Output Electrical Loop Back Opticall Loop Back Tx CDRs Postamp IC 100 GBASE-SR10 Optical Output MDIO + MDC Controller Block CFP2 Electrical Connector 2x12 MTP/MPO Optical Connector Transmitter Section: The optical transmitter incorporates a 10-channel VCSEL (Vertical Cavity Surface Emitting Laser) array, a 10-channel input CDR/buffer and laser driver, diagnostic monitors, laser control and bias blocks. The transmitter is designed for IEC-60825 and CDRH eye safety compliance. The Tx input stage provides CPPI compliant differential inputs per IEEE 802.3ba. In addition to module level temperature and Vcc monitors, Avago CFP2 SR10 transceivers provide per channel monitors of VCSEL bias and transmitter optical output power through the MDIO interface. Alarm thresholds are established for the monitored diagnostics in CFP2 MDIO non-volatile registers. Flags are set and linked to the module global alarm pin (GLB_ALRMn, pin 29) via configuration parameters in CFP2 MDIO volatile registers. AC coupling capacitors are located inside the CFP2 transceiver and are not required on the host board. For module control and interrogations, and MDIO+MDC two wire interface is provided. Receiver Section: The optical receiver incorporates a 10-channel PIN photodiode array, a 10-channel pre-amplifier and output CDR/ buffer, diagnostic monitors and control blocks. The Rx output stage provides CPPI compliant differential inputs per IEEE 802.3ba. AC coupling capacitors are located inside the CFP2 transceiver and are not required on the host board. 2 In addition to module level temperature and Vcc monitors, Avago CFP2 SR10 transceivers provide per channel monitors of receiver optical input power through the MDIO interface. Alarm thresholds are established for the monitored diagnostics in CFP2 MDIO non-volatile registers. Flags are set and linked to the module global alarm pin (GLB_ALRMn, pin 29) via configuration parameters in CFP2 MDIO volatile registers. Low Speed I/O: The CFP2 SR10 transceiver provides two low speed interfaces to the host for module control and monitoring, one via LVCMOS hard pin signals and the other through an 802.3 compliant 1.2V CMOS MDIO+MDC two wire serial interface. Hard pin functions are available to support a Global Tx Disable control (pin 24, TX_DIS), a Global Low Power Mode control (pin 26, MOD_LOPWR), a global module Reset control (pin 28, MOD_RSTn), a global module Rx LOS monitor (pin 25, RX_LOS) and a global module Alarm monitor (pin 29, GLB_ALRMn). The pin functions can be customized via configuration parameters in CFP2 MDIO volatile registers. Soft functions are available to support many control and monitoring behaviours via a two wire serial MDIO+MDC interface. Avago’s CFP SR10 transceivers support clock rates from 100kHz to 4MHz per the CFP2 industry agreement. Regulatory Compliance Table Feature Test Method Performance Electrostatic Discharge (ESD) to the Electrical Contacts JEDEC Human Body Model (HBM) (JESD22-A114-B) High speed contacts shall withstand 1000V. All other contacts shall withstand 2000 V. Electrostatic Discharge (ESD) to the Optical Connector Receptacle EN61000-4-2, Criterion B When installed in a properly grounded housing and chassis the units are subjected to 15kV air discharges during operation and 8kV direct discharges to the case. Electromagnetic Interference (EMI) FCC Part 15 CENELEC EN55022 (CISPR 22A) VCCI Class 1 System margins are dependent on customer board and chassis design. RF Immunity Variation of IEC 61000-4-3 Typically shows no measurable effect from a 10V/m field swept from 80 MHz to 1 GHz applied to the module without a chassis enclosure Laser Eye Safety and Equipment Type Testing US FDA CDRH AEL Class 1 US21 CFP, Subchapter J per Paragraphs 1002.10 and 1002.12 CDRH Certification 9720151-141 TUV File: R 72131700 (IEC) EN60825-1:1994 +A11 +A2 (IEC) EN60825-2:1994 +A1 (IEC) EN60950:1992 +A1 +A2 +A3 +A4 +A11 Component Recognition Underwriters Laboratories (UL) and Canadian Standards Association (CSA) Joint Component Recognition for Information Technology Equipment including Electrical Business Equipment RoHS Compliance RoHS Directive 2002/95/EC and it’s amendment RoHS6 with exemption 7c-I directives 6/6 Flammability UL 94V-0 MPO Optical Lane Assignments CFP2 Rx Optical Channel MTP/MPO Fiber Number MTP/MPO Fiber Number CFP2 Tx Optical Channel Unused Fibers 3 UL File: E173874 Unused Fibers Absolute Maximum Ratings Parameter Symbol Minimum Maximum Unit Storage Temperature TS -40 85 °C Absolute Maximum Operating Temperature TC 85 °C Note 2 3.3V Power Supply Voltage VCC -0.5 3.6 V Per CFP2 MSA -200 200 mA/µs Per CFP2 MSA 3.75 A Per CFP2 MSA Vcc+0.5 V 1.0 V Note 3 In Rush Current Rate (All pins, Class 3) Operating Power Supply Current ICC Data Input Voltage – Single Ended Data Input Voltage – Differential -0.5 |Vdip-Vdin| Notes 3.3V LVCMOS Control Pin Input Voltage -0.3 Vcc+0.3 V Per CFP2 MSA 3.3V LVCMOS Control Pin Output Current -4.0 4.0 mA Per CFP2 MSA 1.2V CMOS Control Pin Input Voltage -0.3 1.5 V Per CFP2 MSA -4.0 4.0 mA Per CFP2 MSA 1.2V CMOS Control Pin Output Current Power Supply Noise Vrip Relative Humidity RH Receiver Optical Damage Threshold Pr,max 2% 3% 5 DC – 1MHz 1 – 10MHz 85 % +3.4 dBm,avg 802.3 Clause 86 Notes: 1. Absolute Maximum Ratings are those values beyond which damage to the device may occur if limits are exceeded for other than a short period of time. See Reliability Data Sheet for specific reliability performance. 2. Electro-optical specifications are not guaranteed outside the recommended operating temperature range. Operation at or above the maximum Absolute Maximum Case Temperature for extended periods of time may adversely impact reliability. 3. This is the maximum input voltage that can be applied across the differential inputs without damaging the input circuitry. Recommended Operating Conditions Parameter Symbol Minimum Maximum Unit Notes Case Operating Temperature TC 0 70 °C Note 1, 2 Total Power Dissipation CDRs in Bypass (Default State - Class 2 CFP2) Pdiss 6.0 W Per CFP2 MSA Total Power Dissipation CDRs ON (Class 3 CFP2) Pdiss 9.0 W Per CFP2 MSA Total Power Dissipation (Low Power Mode) Pdiss,lpwr 2.0 W Per CFP2 MSA Power Supply Voltage VCC 3.465 V 3.135 Notes: 1. The Ambient Operating Temperature limitations are subject to the host system thermal design. 2. Recommended Operating Conditions are those values for which functional performance and device reliability is implied. 3. Per CFP2 industry agreement specifications. 4 Transmitter and Receiver Electrical Characteristics (CPPI Mode, Internal CDRs Off) (Tc = 0 °C to 70 °C, Vcc = 3.3 V ± 0.1 V) Parameter Symbol Min Typ Max Unit Notes High Speed Signalling Rate, Per Lane 10.3125 Gb/s ± 100 ppm Per 802.3 Clause 86 High Speed Signalling Rate, Per Lane 11.18 Gb/s Un-retimed OTU4 (OTL4.10) rate V 802.3 Clause 86A mV,rms 802.3 Clause 86A Single Ended Input Voltage Tolerance, TP1a -0.3 AC Common Mode Input Voltage Tolerance, TP1a 15 Differential Input Return Loss, TP1 RL,diff 4 dB 802.3 Clause 86A Differential to Common Mode Input Return Loss, TP1 Equation 10 86A.4.1.1 dB 802.3 Clause 86A J2 Jitter Tolerance, TP1a 0.17 UI 802.3 Clause 86A J9 Jitter Tolerance, TP1a 0.29 UI 802.3 Clause 86A Data Dependent Pulse Width Shrinkage Tolerance, TP1a 0.07 UI 802.3 Clause 86A UI mV 802.3 Clause 86A Hit Ratio = 5 x 10-5 Input Voltage Eye Mask TP1a (X1, X2) Input Voltage Eye Mask TP1a (Y1, Y2) 0.11, 0.31 95, 350 Data Output Differential Peak-to-Peak Voltage Swing, TP4 300 850 mV Single Ended Output Voltage, TP4 -0.3 4 V 802.3 Clause 86A 7.5 mV,rms 802.3 Clause 86A 5 % AC Common Mode Output Voltage, TP4 Termination mismatch at 1MHz, TP4 Differential Output Return Loss, TP4 RL,diff Common Mode Output Return Loss, TP4 Output Transition Time, 20% to 80%, TP4 Tr, Tf Equation 86A.4.2.1 dB 802.3 Clause 86A Equation 86A.4.2.2 dB 802.3 Clause 86A ps 802.3 Clause 86A J2 Jitter Output, TP4 28 0.42 UI 802.3 Clause 86A J9 Jitter Output, TP4 0.65 UI 802.3 Clause 86A Data Dependent Pulse Width Shrinkage (DDPWS), TP4 0.34 UI 802.3 Clause 86A UI mV 802.3 Clause 86A Hit Ratio = 5 x 10-5 Output Voltage Eye Mask (X1, X2) Output Voltage Eye Mask (Y1, Y2) 0.29, 0.5 150, 425 Notes: 1. Internally AC coupled and terminated (100 Ω differential). 2. CDRs bypassed result in CPPI compliance per 802.3ba Clause 86A. Y2 Differential Amplitude [mV] Differential amplitude (mV) Y2 Y1 0 -Y1 -Y2 0 -Y1 -Y2 0 X1 X2 1-X2 Time (UI) TP1a Electrical Input Eye Mask (CPPI) Per 86A.5.3.6 5 Y1 1-X1 1 0 X1 X2 Normalized Time [UI] TP4 Electrical Output Eye Mask (CPPI) Per 86A.5.3.6 1-X1 1 Transmitter Optical Characteristics (Tc = 0 °C to 70 °C, VccT, VccR = 3.3 V ± 0.1 V) Parameter Symbol Min Center Wavelength, TP2 lC 840 Spectral Width – rms, TP2 σrms Average Optical Output Power, TP2 Pout Modulated Optical Output Power (OMA), TP2 Tx,OMA Max Unit Notes 860 nm Per 802.3 Clause 86 0.65 nm Per 802.3 Clause 86 -7.6 +2.4 dBm,avg Note 1 -5.6 +3.0 dBm,oma Per 802.3 Clause 86 OMA Optical Power Difference between any two lanes, TP2 +4.0 dB Per 802.3 Clause 86 Peak Optical Output Power, each lane, TP2 +4.0 dBm,pk Per 802.3 Clause 86 dBm,oma Per 802.3 Clause 86 dB Per 802.3 Clause 86 dB Per 802.3 Clause 86 dB Per 802.3 Clause 86 Launched Power in OMA Minus TDP, each lane, TP2 Typ -6.5 Transmitter & Dispersion Penalty, TP2 TDP Extinction Ratio, TP2 ER 3.5 3.0 Optical Return Loss Tolerance, TP2 12 ≥ 86% at 19 µm ≤ 30% at 4.5 µm Encircled Flux, TP2 Eye Mask coordinates: X1, X2, X3, Y1, Y2, Y3, TP2 SPECIFICATION VALUES 0.23, 0.34, 0.43, 0.27, 0.35, 0.4 Average Optical Output Power Tx_DIS Asserted Poff Per 802.3 Clause 86 -30 UI Hit Ratio = 5 x 10-5 dBm,avg Per 802.3 Clause 86 Notes: 1. Max average Pout per 802.3ba Clause 86 is +2.4 dBm,avg. To interoperate with legacy 802.3ae Clause 52 devices the limit may need to be constrained to no more than -1.0 dBm,avg. 1+Y3 Mask Coordinates X1 = 0.23 X2 = 0.34 X3 = 0.43 Y1 = 0.27 Y2 = 0.35 Y3 = 0.40 Normalizd Amplitude 1 1-Y1 1-Y2 0.5 Y2 Y1 0 -Y3 0 X1 X2 X3 1-X3 1-X2 1-X1 Normalized Time (Unit Interval 1.0 Transmitter eye mask definitions (TP2) at Hit ratio 5 x 10-5 hits per sample Per Table 86-6 6 Receiver Optical Characteristics (Tc = 0 °C to 70 °C, VccT, VccR = 3.3 V ± 0.1 V) Parameter Symbol Min Center Wavelength, each lane, TP3 lC 840 Damage Threshold, TP3 Average Optical Input Power, Unstressed Rx Sensitivity/Overload, each lane, TP3 Typ Max Unit Notes 860 nm Per 802.3 Clause 86 dBm,avg Per 802.3 Clause 86 +3.4 PIN -9.5 Receiver Reflectance, TP3 Modulated Optical Input Power (OMA) – Overload, each lane, TP3 Rx OMA Modulated Optical Input Power (OMA) – Stressed Rx Sensitivity, each lane, TP3 Rx OMA Stressed receiver sensitivity in OMA, each lane PA Loss of Signal – De-asserted, TP3 PD Loss of Signal – Hysteresis, TP3 PA – PD dBm,avg -12 dB Per 802.3 Clause 86 +3.0 dBm,oma Per 802.3 Clause 86 -5.4 Peak Optical Input Power, each lane, TP3 Loss of Signal – Assert, TP3 +2.4 dBm,oma Per 802.3 Clause 86 +4.0 dBm,pk Per 802.3 Clause 86 -5.4 dBm,oma Per 802.3 Clause 86 -30 dBm,oma -8 0.5 Per 802.3 Clause 86 dBm,oma dB Conditions of stressed receiver sensitivity, TP3: Per 802.3 Clause 86 Vertical eye closure penalty (VECP), each lane 1.9 dB Per 802.3 Clause 86 Stressed eye J2, Jitter, each lane, TP3 0.30 UI Per 802.3 Clause 86 Stressed eye J9, Jitter, each lane, TP3 0.47 UI Per 802.3 Clause 86 OMA of each aggressor lane, TP3 -0.4 dBm Per 802.3 Clause 86 Note: 1. Refer to IEEE 802.3 Clause 86 for conditions of Stressed Receiver Sensitivity Test and Conditions of Receiver Jitter Tolerance Test. 7 MDIO and MDC Electrical Characteristics (Tc = 0 °C to 70 °C, VccT, VccR = 3.3 V ± 0.1 V) Parameter Symbol MDC Clock Frequency MDC Clock Period t_prd MDC Clock Duty Cycle MDC Clock Pulse Width Min Typ Max Unit 0.1 4.0 MHz 0.25 10 µs 40 60 % Notes 100 ns MDIO Data Setup Time t_setup 10 ns MDIO Data Hold Tim t_hold 10 ns Delay From Rising Edge MDC to MDIO Data Change t_delay 0 175 ns MDIO, MDC and PRTADR2:0 Input Voltage, High VIH 0.84 1.5 V MDIO, MDC and PRTADR2:0 Input Voltage, Low VIL -0.3 0.36 V MDIO Output Voltage, High VOH 1 1.5 V IOH = -100 µA MDIO Output Voltage, Low VOL -0.3 0.2 V IOL = 100 µA MDIO Output Current, High IOH -4 mA VOH = 1 V MDIO Output Current, Low IOL mA VOL = 0.2 V 4 Timing parameters Parameter Symbol Hardware MOD_LOPWR assert Hardware MOD_LOPWR deassert Max Unit t_MOD_LOPWR_assert 1 ms t_MOD_LOPWR_deassert 1 ms Receiver Loss of Signal Assert Time t_loss_assert 100 µs Receiver Loss of Signal De-Assert Time t_loss_deassert 100 µs Global Alarm Assert Delay Time GLB_ALRMn_assert 150 ms Global Alarm De-Assert Delay Time GLB_ALRMn_deassert 150 ms Initialization time from Reset t_initialize 2.5 s Transmitter Disabled (TX_DIS asserted) t_deassert 100 µs Transmitter Enabled (TX_DIS de-asserted) t_assert 20 ms 8 Min Typ Notes This is a logical "OR" of associated MDIO alarm & status registers. From TX-Off state. Transceiver Contact Assignment and Signal Description CFP2 Pin Logic Symbol Electrical Pin Description 1 Gnd GND GND 1 2 CML TX9n High Speed Data Input -, Channel 9 4 3 CML TX9p High Speed Data Input +, Channel 9 4 4 Gnd GND GND 1 5 CML TX8n High Speed Data Input -, Channel 8 4 6 CML TX8p High Speed Data Input +, Channel 8 4 7 Gnd GND GND 1 8 Gnd 3.3V_GND 3.3V_GND (differs from standard GND) 2 9 VCC VCC 3.3V Supply 2 10 VCC VCC 3.3V Supply 2 11 VCC VCC 3.3V Supply 2 12 VCC VCC 3.3V Supply 2 13 Gnd 3.3V_GND 3.3V_GND (differs from standard GND) 2 14 Gnd 3.3V_GND 3.3V_GND (differs from standard GND) 2 15 No Connect VND_IO_A Module Vendor I/O A. For mfg use only. Do not connect. 3 16 No Connect VND_IO_B Module Vendor I/O B. For mfg use only. Do not connect. 3 17 LVCMOS PRG_CNTL1 Programmable Control 1, set over MDIO. MSA Default is TRXIC_RSTn. 3 18 LVCMOS PRG_CNTL2 Programmable Control 2, set over MDIO. MSA Default is Hardware Interlock LSB. 3 19 LVCMOS PRG_CNTL3 Programmable Control 3, set over MDIO. MSA Default is Hardware Interlock MSB. 3 20 LVCMOS PRG_ALRM1 Programmable Alarm 1, set over MDIO. MSA Default is HI PWR_ON 1 3 21 LVCMOS PRG_ALRM2 Programmable Alarm 2, set over MDIO. MSA Default is MOD_READY 3 22 LVCMOS PRG_ALRM3 Programmable Alarm 3, set over MDIO. MSA Default is MOD_FAULT 3 23 Gnd GND GND 1 24 LVCMOS TX_DIS Global Transmitter Disable (For all laser channels) "1" or NC = transmitter disabled, "0" = transmitter enabled 3 25 LVCMOS RX_LOS Global Rx_LOS alarm (Logic OR of all optical RX channels LOS) "1": low optical signal, "0": normal condition 3 26 LVCMOS MOD_LO PWR Module Low Power Mode [Achieves < 2 W) "1" or NC: module in low power (safe) mode, "0": power-on enabled 4 27 GND MOD_ABS Module absent. Ground in transceiver. "1" or NC: module absent, "0": module present, Pull Up Resistor on Host required. 4 28 LVCMOS MOD_RSTn Global Module reset. Pulled down inside module, resistor value of 4.7 kΩ to 10 kΩ. “0” resets the module, “1” or NC = module enabled. Hardware Reset: Asserting MOD_RSTn will cause a complete reset of the module. All VR values are lost and must be re-written by the Host. 3 29 LVCMOS GLB_ALRMn Global Module alarm. Logic OR of Fault, Alarms, Warnings, and Status Flags. “0": alarm condition in any MDIO Alarm register, "1": no alarm condition, Open Drain, Pull Up Resistor on Host is required. 3 30 Gnd GND GND 1 31 1.2V CMOS MDC MDIO clock line (100 kHz to 4 MHz) per 802.3ae 3 32 1.2V CMOS MDIO MDIO data line per 802.3ae 3 33 1.2V CMOS PRTADR0 MDIO Physical Port Address bit 0 3 34 1.2V CMOS PRTADR1 MDIO Physical Port Address bit 1 3 35 1.2V CMOS PRTADR2 MDIO Physical Port Address bit 2 3 36 No Connect VND_IO_C Module Vendor I/O C. For mfg use only. Do not connect. 3 37 No Connect VND_IO_D Module Vendor I/O D. For mfg use only. Do not connect. 3 38 No Connect VND_IO_E Module Vendor I/O E. For mfg use only. Do not connect. 3 39 Gnd 3.3V_GND 3.3V_GND (differs from standard GND) 2 40 Gnd 3.3V_GND 3.3V_GND (differs from standard GND) 2 41 VCC VCC 3.3V Supply 2 42 VCC VCC 3.3V Supply 2 43 VCC VCC 3.3V Supply 2 44 VCC VCC 3.3V Supply 2 45 Gnd 3.3V_GND 3.3V_GND (differs from standard GND) 2 46 Gnd GND GND 2 47 CML RX9n High Speed Data Output -, Channel 9 4 47 CML RX9n High Speed Data Output -, Channel 9 4 9 Plug Mating Sequence CFP2 Pin Logic Symbol Electrical Pin Description 48 CML RX9p High Speed Data Output +, Channel 9 4 49 Gnd GND GND 1 50 CML RX8n High Speed Data Output -, Channel 8 4 51 CML RX8p High Speed Data Output +, Channel 8 4 52 Gnd GND GND 1 53 Gnd GND GND 1 54 CML RX0p High Speed Data Output +, Channel 0 4 55 CML RX0n High Speed Data Output -, Channel 0 4 56 Gnd GND GND 1 57 CML RX1p High Speed Data Output +, Channel 1 4 58 CML RX1n High Speed Data Output -, Channel 1 4 59 Gnd GND GND 1 60 CML RX2p High Speed Data Output +, Channel 2 4 61 CML RX2n High Speed Data Output -, Channel 2 4 62 Gnd GND GND 1 63 CML RX3p High Speed Data Output +, Channel 3 4 64 CML RX3n High Speed Data Output -, Channel 3 4 65 Gnd GND GND 1 66 CML RX4p High Speed Data Output +, Channel 4 4 67 CML RX4n High Speed Data Output -, Channel 4 4 68 Gnd GND GND 1 69 CML RX5p High Speed Data Output +, Channel 5 4 70 CML RX5n High Speed Data Output -, Channel 5 4 71 Gnd GND GND 1 72 CML RX6p High Speed Data Output +, Channel 6 4 73 CML RX6n High Speed Data Output -, Channel 6 4 74 Gnd GND GND 1 75 CML RX7p High Speed Data Output +, Channel 7 4 76 CML RX7n High Speed Data Output -, Channel 7 4 77 Gnd GND GND 1 78 CML REFCLKp No functionality in AFBR-8420Z 4 79 CML REFCLKn No functionality in AFBR-8420Z 4 80 Gnd GND GND 1 81 CML TX0p High Speed Data Input +, Channel 0 4 82 CML TX0n High Speed Data Input -, Channel 0 4 83 Gnd GND GND 1 84 CML TX1p High Speed Data Input +, Channel 1 4 85 CML TX1n High Speed Data Input -, Channel 1 4 86 Gnd GND GND 1 87 CML TX2p High Speed Data Input +, Channel 2 4 88 CML TX2n High Speed Data Input -, Channel 2 4 89 Gnd GND GND 1 90 CML TX3p High Speed Data Input +, Channel 3 4 91 CML TX3n High Speed Data Input -, Channel 3 4 92 Gnd GND GND 1 93 CML TX4p High Speed Data Input +, Channel 4 4 94 CML TX4n High Speed Data Input -, Channel 4 4 95 Gnd GND GND 1 96 CML TX5p High Speed Data Input +, Channel 5 4 97 CML TX5n High Speed Data Input -, Channel 5 4 98 Gnd GND GND 1 99 CML TX6p High Speed Data Input +, Channel 6 4 100 CML TX6n High Speed Data Input -, Channel 6 4 101 Gnd GND GND 1 102 CML TX7p High Speed Data Input +, Channel 7 4 103 CML TX7n High Speed Data Input -, Channel 7 4 104 Gnd GND GND 1 10 Plug Mating Sequence Host Lane Pins – 10x10G High Speed Electrical Interface (Tx0-9, Rx0-9) The AFBR-8420Z supports 10x10G CPPI compliant electrical interfaces as defined in Ethernet IEEE 803.ba specification. The electrical connector pinouts are per the CFP2 MSA 10x 10G specifications. A non-retimed CPPI interface (per 802.3ba Clause 86A) is supported by bypassing the internal per-channel CDRs. This reduces the current/power consumption and reduces the thermal impact to the host system; this is the default state of the module. All CDRs (Tx path, Rx path) as depicted in Transceiver Block Diagram are bypassed by default. The user must access the appropriate register to turn all CDRs on. CDR status is controlled by MDIO CFP VR1 register A015 bits 7-0 (09h = CPPI is the default for CDRs off, 01h = turn CDRs on). All electrical inputs and outputs are internally ac coupled with the CFP2 housing. Differential impedances are nominally 100 Ω. Network Lanes – 10x10G High Speed Optical Interface (Tx0-9, Rx0-9) The AFBR-8420Z supports 10x10G SR10 multi-mode fiber optic interfaces as defined in Ethernet IEEE 802.3 Clause 86, including optical lane assignments (MPO optical connector) and link specifications. Global Alarm Pin: (GLB_ALRMn) The GLB_ALRMn signal pin is an output from the CFP2 module to the host using active low logic (i.e., Logic Low is an alarm condition, Logic High is normal operation). When GLB_ALRMn is asserted (driven Low) it indicates a Fault, Alarm, Warning or Status event has occurred. This reduces the need for continuous polling of status and monitor registers, while maintaining timely alerts to significant events. GLB_ALRMn can be programmed as the LOGIC OR of the multiple inputs inputs (all of which can be read, cleared and masked in the Memory Map), including • Module Temperature Alarms • Module Vcc Alarms • Global Rx_LOS Alarm Module Reset Pin: (MOD_RSTn) The MOD_RSTn signal pin is an input pin from the host to the CFP2 module using active low logic (i.e., Logic Low resets the CFP2 module). This pin is pulled down in the CFP2 with a resistor value of 4.7 kΩ to 10 kΩ. Module Low Power Mode Enable Pin: (MOD_LOPWR) The MOD_LOPWR signal pin is an input from the host to the CFP2 module using active high logic (i.e., Logic High sets the CFP2 to low power mode, Logic Low sets the CFP2 to high power mode). When the module is in low power mode it has a maximum power consumption of 2 W. 11 Module Absent (Not Present) Pin: (MOD_ABS) (i.e., Logic High indicates a CFP2 is absent in the port, Logic Low indicates a CFP2 is present in the port). Optical Transmitter Disable Pin: (TX_DIS) The TX_DIS signal pin is an input from the host to the CFP2 module using active high logic (i.e., Logic High disables the CFP2 optical transmitters; Logic Low enables the CFP2 optical transmitters). This pin is pulled upside in the module and must be pulled down by the host to enable optical transmission. While in the disabled state, the transmitter alarm and warning flags associated with transmit optical power and laser current will assert. To mask these flags from alarming the host, the user must configure the related masking bits in A220-A229 and A240-A249. Optical Receiver Loss of Signal Pin: (RX_LOS) The RX_LOS signal pin is an output from the CFP2 module to the host using active high logic (i.e., Logic High indicates one or more CFP2 optical inputs are not receiving a valid signal; Logic Low indicates all CFP2 optical inputs are receiving a valid signal). The RX_LOS triggers on a loss of optical modulation as detected at the optical receiver. Management Data I/O, Clock and Address Pins: (MDIO, MDC, PRTADR0, PRTADR1, PRTADR2) The CFP2 management data interface consists of 5 pins, including 1 pin for a clock, 1 pin for data and 3 pins for a physical port address definition. • MDC is the MDIO clock line driven by the host • MDIO is the bi-directional data line driven by both the host and the CFP2, depending on data direction. The MDIO bus structure follows specifications in IEEE 802.3 Clause 45 at a clock rate up to 4.0 MHz. • PRTADR0, PRTADR1, PRTADR2 are the MDIO Physical Port address bits 0, 1 and 2 These control pins are used for the system to address all of the CFP ports contained within a host system. PRTADR0 corresponds to the LSB in the physical port addressing scheme. The 5-wire Physical Port Address lines are driven by host to set the module Physical Port Address which should match the address specified in the MDIO Frame. PRG_CNTLx Behavior: PRG_CNTL2, PRG_CNTL3 are used as HW_IL_LSB and HW_ IL_MSB during the Initialize state (Hardware Interlock). PRG_CNTL1 will be set as default = TXRXIC_RSTn. After Initialization, the user may assign/un-assign TXRXIC_RSTn function to PRG_CNTL1 and/or PRG_CNTL2 and/ or PRG_CNTL3 using Registers A005h, A006h and A007h. If TRXIC_RSTn is then asserted the signal integrity / loopback chips will be reset. For example, if the module is in “CDRs ON Mode” and the user asserts TRXIC_RSTn, this will cause a reset of the signal integrity chips. The module will revert back to “CDRs Bypass Mode”, since “CDRs Bypass Mode” is the DEFAULT state of the Module. Hardware Interlock The Hardware Interlock provides for four different power consumption levels. The module shall compare the maximum power dissipation under vendor specified operating conditions to the host system cooling capacity value communicated via the Hardware Interlock. Hardware Interlock Description Power Dissipation (W) Examples of features not required, and therefore, not implemented for this CFP2 100GBASE-SR10 Module media are complex power on sequences related to managing internal laser cooling (section 4.1.2, 4.2 and 4.3), advanced host and network lane considerations related to electrical or optical multiplexers (section 4.9, 4.12), etc.. MSB LSB Power Class 0 0 1 ≤3 0 1 2 ≤6 The CFP2 100GBASE-SR10 Module, AFBR-8420Z, provides digital diagnostic functionality for parameters of laser bias, laser optical power, received optical power, Vcc and temperature. It has variable host lane equalization. 1 0 3 ≤9 Enable and Disable CDRs 1 1 ≥4 >9 All Tx CDRs and All Rx CDRs will be turned on with a single command to put the Transceiver into retimer mode. These CDRs cannot be enabled on a per individual channel basis. Furthermore, the user cannot separately turn on Tx CDRs or Rx CDRs. PRG_ALRMx Behavior PRG_ALRMx behavior can be assigned using Registers A008, A009, A00A, per the CFP2 MSA definition. Note, however, that some alarm capabilities do not exist in our CFP2 SR10 module and therefore cannot be assigned to the PRG_ALRMx pins. Below is a list of the possible PRG_ ALRMx assignments. 7:0 Alarm Source Code PRG_ALRMx; Selects, and assigns, an alarm source for PRG_ALRMx = 0: Not active, always de-asserted NOT SUPPORTED = 1: HIPWR_ON SUPPORTED = 2: Ready State SUPPORTED = 3: Fault State, MSA default setting SUPPORTED = 4: RX_ALRM = RX_LOS + RX_NETWORK_LOL SUPPORTED ONLY FOR RX_LOS, NOT FOR RX_NETWORK_LOL = 5: TX_ALRM = TX_LOSF + TX_HOST_LOL + TX_CMU_LOL NOT SUPPORTED = 6: RX_NETWORK_LOL NOT SUPPORTED = 7: TX_LOSF NOT SUPPORTED = 8: TX_HOST_LOL NOT SUPPORTED = 9: OOA, Out of alignment NOT SUPPORTED Other and Unused Pins: REFCLKp, REFCLKn pins are not used in the AFBR-8420Z and can be left Not Connected (NC). These pins are internally terminated with a capacitor and resistor to ground internal to the CFP2 Module AFBR-8420Z. Software Control/Status Indicators Software feature sets for AFBR-8420Z are defined in the CFP Management Interface Specification (MIS), Version 2.2. Software features are accessible using the MDIO interface per the CFP MSA. 12 This CFP2 100GBASE-SR10 Module is less complex than other types of transceivers found in the CFP/CFP2 footprint; for example LR4-type modules. Therefore this module does not support many of the elaborate functions defined in the CFP MIS. The CFP2 module is in CDR Bypass, CPPI mode by default; the CDRs will be bypassed by default and 0x09h will be the value in Register A015 bits 7-0 (CPPI mode). To enable all CDRs and enter retimer mode, the user must write value 0x01h to Register A015 bits 7-0. Enable Network Lane Loopback (OLoop/OWrap) The Network Lane Loopback will be disabled by default. To enable the Network Lane Loopback (Oloop/Owrap) write a value of ‘1’ to bit 10 in Register A012. Enable Host Lane Loopback (ELoop/EWrap) The Host Lane Loopback will be disabled by default. To enable the Host Lane Loopback (Eloop/Ewrap) write a value of ‘1’ to bit 10 in Register A014. TX Squelch Tx_LOS turns off the laser on a per channel basis when there is no high-speed modulation on the electrical differential inputs on a per channel basis. This squelch feature is always enabled. RX LOS and Squelch Rx_LOS is based on OMA level of the incoming optical signal. RX_LOS triggers on loss of modulation (as opposed to a loss of average optical power) Password Protected Fields MSA specifies the default user password value as 0101 1100h. This opens up the User NVR1 and User NVR2 pages only in Registers 8800h and 8880h. Vendor NVR1 and 2 has a different password than the User NVR. The default user password for the Vendor NVR1 and NVR2 is 8101 1100h. This opens up the Vendor NVR1 and Vendor NVR2 pages only in Registers 8400h and 8480h. Memory Map Block Hex Name Addr Size Access Type NVR1 CFP 1 1 8000 8001 8002 8003 8004 8005 8006 8007 8008 8009 1 1 1 1 1 1 1 1 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Register Name Value Description LSB Unit 7-0 7-6 5-4 Module Identifier Power Class Lane Ratio Type 11h A0h n/a n/a 3-1 0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-4 WDM type CLEI Presence Connector Type Ethernet Application Fibre Channel App Copper Application Sonet Application OTN Application Additional Rates Network Lanes 3-0 Host Lanes 4Ah 38h CFP2 Module Identifier (10b bits 7-6) CFP2 Power Class 1 < 9 W (10b bits 5-4) Host to Network Lane Ratio Type n:n (10:10 parallel) (000b bits 3-1) Non-WDM Type (0b bit 0) No CLEI code present MPO optical connector Ethernet Application 100GE MMF 100GBASE-SR10 undefined undefined undefined undefined Not supported (Ah bits 7-4) Decimal Value = 10 [10 network optical lanes] (Ah bits 3-0) Decimal Value = 10 [10 host electrical lanes] MMF (01b bits 7-6) for OM3/OM4. 0 b = Normal 0 b = WITHOUT optical Mux/Demux (Ah bits 3-0) Decimal Value = 10 [i.e., 10 TxRx lanes active per connector ] Decimal Value = 56 [i.e., 56 x 0.2 Gb/2 = 11.2 Gb/s lane rate] Decimal Value = 56 [i.e., 56 x 0.2 Gb/2 = 11.2 Gb/s lane rate] Undefined for MMF links Decimal Value = 10 [i.e., 10 x 10 m = 100 m maximum MM OM3 length] Maximum OM4 length is 150 m in register 8181. Undefined for MMF links Decimal Value = 10 Active Transmit Fibers Per MSA, 00h represents 850 nm MMF source. (Alt = 01h) Per MSA, 00h represents MMF source. (Alt = 8340h for Decimal Value = 33,600) [ie. 33,600 x 0.025 nm = 840 nm] Per MSA, 00h represents MMF source. (Alt = 8660h for Decimal Value = 33,600) [i.e., 34,400 x 0.025 nm = 860 nm] Per MSA, 00h represents MMF source. (Alt = 028Ah for Decimal Value = 650) [i.e., 650 * .001 nm = 0.65 nm] (0000b bits 7-4) Per MSA for VCSEL source technology (0000b bits 0-3) DML - Direct modulation Tx technology (0000b bits 7-4) No VOA, tunable, cooling, wavelength ctrl PIN detector (01b bits 3-2), CDR without EDC (0b bit 1) NRZ (01b bits 7-6) n/a 09h 03h 00h 00h 00h 00h 00h AAh 800A 1 Read Only 7-6 5 4 3-0 800B 1 Read Only 7-0 Media Type Directionality Optical Muxing Active Fibers per Connector Max Network Lane Rate 800C 1 Read Only 7-0 Max Host Lane Rate 800D 1 800E 1 Read Only Read Only 7-0 7-0 Max SM fiber length 00h Max MM OM3 fiber length 0Ah 800F 8010 8011 1 1 1 Read Only Read Only Read Only 7-0 7-0 7-0 Max Cu cable length Number Tx Fibers Number Tx Wavelengths 00h 0Ah 00h 8012 2 Read Only 7-0 Min Tx Wavelength (MSB 8012, LSB 8013) 0000h 8014 2 Read Only 7-0 Max Tx Wavelength (MSB 8014, LSB 8015) 0000h 8016 2 Read Only 7-0 Max Tx Optical Width (MSB 8016, LSB 8017) 0000h 8018 1 Read Only 7-4 Laser Source Type 00h 3-0 Tx Modulation Type 7-4 Tx Device Technology 3-0 Detector Type, CDR Type 7-6 Signal Modulation 5-0 Signal Encoding 8019 1 801A 1 13 Read Only Read Only 8 Bits Read Only Read Only 38h 04h 40h n/a n/a n/a n/a n/a n/a n/a n/a n/a n/a 0.2 Gb 0.2 Gb 1 km 10 m 1m n/a n/a .025 nm .025 nm 0.001 nm n/a n/a Non-PSK coding (0000b bits 5-0) 801B 1 Read Only 7-0 Max Output Power 11h Decimal Value = 17 [i.e., 17 * 0.1 mW = 1.74 mW = +2.4 dBm] 0.1 mW 801C 1 Read Only 7-0 Max Input Power 11h Decimal Value = 17 [i.e., 17 * 0.1 mW = 1.74 mW = +2.4 dBm] 0.1 mW Block Hex Name Addr NVR1 CFP 14 Size Access Type 8 Bits Register Name Description LSB Unit 801D 1 801E 1 801F 1 Read Only Read Only Read Only 7-0 7-0 7-0 Max Power Consumption 2Dh LOW Power Consumption 64h Max Operating Case Temp 46h Value Decimal Value = 45 [i.e., 45 * 200 mW = 9 W] Decimal Value = 100 [i.e., 100 * 20 mW = 2 W] 200 mW 20 mW [i.e., 70 * 1 °C = 70 °C]. Signed Two’s compliment 1 °C 8020 1 Read Only 7-0 Min Operating Case Temp 00h 8021 8022 8023 8024 8025 8026 8027 8028 8029 802A 802B 802C 802D 802E 802F 8030 8031 8032 8033 8034 8035 8036 8037 8038 8039 803A 803B 803C 803D 803E 803F 8040 8041 8042 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Read Only 7-0 Vendor Name 1 °C n/a Read Only 7-0 Vendor OUI Read Only 7-0 Vendor Part Number 41h 56h 41h 47h 4Fh 20h 20h 20h 20h 20h 20h 20h 20h 20h 20h 20h 00h 17h 6Ah 41h 46h 42h 52h 2Dh 38h 34h 32h 30h 5Ah 20h 20h 20h 20h 20h [i.e., 0 * 1 °C = 0 °C]. Signed Two’s compliment ASCII "A" ASCII "V" ASCII "A" ASCII "G" ASCII "O" ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank Avago OUI Avago OUI Avago OUI ASCII "A" ASCII "F" ASCII "B" ASCII "R" ASCII "-" ASCII "8" ASCII "4" ASCII "2" ASCII "0" ASCII "Z" ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank 8043 8044 8045 8046 8047 8048 8049 804A 804B 804C 804D 804E 804F 8050 8051 8052 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 20h ASCII blank Read Only 7-0 Vendor Serial Number 8053 1 n/a n/a n/a Block Hex Name Addr Size Access Type NVR 1 8054 CFP 8055 8056 8057 8058 8059 805A 805B 805C 805D 805E 805F 8060 8061 8062 8063 8064 8065 8066 8067 8068 8069 806A 806C 806E 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 1 806F 1 Read Only 8070 15 1 8 Bits Register Name Read Only 7-0 Date Code Read Only 7-0 Lot Code Read Only 7-0 CLEI Code Read Only Read Only Read Only Read Only Read Only 7-0 7-0 7-0 7-0 7-4 3 2 1-0 7-6 5-4 3 2 CFP2 MSA HW Spec Rev CFP MSA MIS Spec Rev Module Hardware Revision Module Firmware Revision Reserved DDM Rx Opt PWR Monitor type DDM Tx Opt PWR Monitor type Reserved DDM Capability - AUX 2 DDM Capability - AUX 1 Reserved Transceiver SOA Bias Mon 1 0 7-4 3 Transceiver Vcc Monitor Transceiver Temp Monitor Reserved Network Lane Rx Opt PWR 2 Network Lane Tx BIAS 1 Network Lane Tx Opt PWR 0 Network Lane Laser Temp Read Only Value Description LSB Unit n/a 20h 20h 20h 20h 20h 20h 20h 20h 20h 20h 20h 20h 0Ah 16h ASCII Blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII blank ASCII Blank Decimal Value = 10 [i.e., 10 * 0.1 rev = Revision 1.0] Decimal Value = 22 [i.e., 22 * 0.1 rev = Revision 2.2] 0Ch Reserved Rx Power measurement type (1b = Average Power) Tx Power measurement type (1b = Average Power) Reserved Auxiliary Monitor 2 (00b = Not Supported) Auxiliary Monitor 1 (00b = Not Supported) Reserved Transceiver SOA Bias Current Monitor (0b = Not Supported) Transceiver Vcc Voltage Monitor (1b = Supported) Transceiver Temperature Monitor (1b = Supported) Reserved Per Channel Rx Optical Power Monitor (1b = Supported) Per Channel Tx Laser Bias Monitor (1b = Supported) Per Channel Tx Optical Power Monitor (1b = Supported) Per Channel Laser Temperature Monitor (0b = Not Supported) 03h 0Eh n/a n/a n/a n/a n/a n/a n/a n/a n/a Block Hex Name Addr NVR 1 8071 CFP Size Access Type 8 Bits Register Name Value Description LSB Unit 1 7 Host Lane Loop-back B0h n/a 6 Host Lane PRBS 5 4 Host Lane EMPHASIS Network Lane Loop-back 3 Network Lane PRBS 2 FEC Decision V threshold 1 0 7-0 7-0 7-0 FEC Decision Ph Threshold Unidirectional TXRX Modes Maximum HIGH Power Up Time 03h Maximum TX Turn On Time 03h Host Lane Signal Specification FFh 7-1 0 7-0 7-0 Reserved Heat Sink Type Maximum TX Turn OFF Time Maximum HIGH Power DOWN Time Reserved Host lane EQ Control Function Active Decision Voltage/Phase Fnct Rx FIFO Reset Rx FIFO Auto Reset Tx FIFO Reset Tx FIFO Auto Reset Tx MCLK Option 7 Tx MCLK Option 6 Tx MCLK Option 5 Tx MCLK Option 4 Reserved Tx MCLK Option 2 Tx MCLK Option 1 Tx MCLK Monitor Option Rx MCLK Option 7 Rx MCLK Option 6 Rx MCLK Option 5 Rx MCLK Option 4 Reserved Rx MCLK Option 2 Rx MCLK Option 1 Rx MCLK Monitor Option Module Firmware B Version Electrical Lane Tx,in to Rx,out Loopback (1b = Supported) Electrical Lane PRBS Generator (0b = Not Supported) Rx Output Emphasis Control (1b = Supported) Optical Lane Rx,in to Tx,out Loopback (1b = Supported) Optical Lane Tx PRBS Generator (0b = Not Supported) FEC Decision Voltage Threshold (0b = not applicable) FEC Decision Phase Threshold (0b = not applicable) Uni-Directional Modes (0b = not applicable) Decimal Value = 3 [i.e., 3 * 1 sec = 3 sec] Decimal Value = 3 [i.e., 3 * 1 sec = 3 sec] This is set to FFh and refer to address 81C7 for expanded capabilities. CPPI = 06h (CDR off ) and CDRs on = 01h Reserved Flat Top Heat Sink =0b. Decimal Value = 100 [i.e., 100 * 1 ms = 100 ms] Decimal Value = 1 [i.e., 1 * 1 sec = 1 sec] Reserved 1b = Supported 0b = Not supported n/a 8072 8073 8074 1 1 1 Read Only Read Only Read Only 8075 1 Read Only 8076 8077 1 1 Read Only Read Only 8078 1 Read Only 8079 1 807A 1 16 Read Only Read Only Read Only 807B 1 807C 1 807D 1 Read Only 807E 1 Read Only 807F 1 Read Only Read Only 7-6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7-0 7-0 7-0 Max MDIO Ready Time 7-6 5 Extended Power Class MDIO Port Address Scheme 4-0 7-0 Reserved CFP NVR1 Checksum 00h 64h 01h 20h 00h 00h 00h 00h 03h 20h 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported 0b = Not supported Two address register format x.y with x at lower, y at higher. 3 sec 3 sec n/a n/a 1 ms 1 sec n/a n/a n/a 3 sec = 03h. Max ready time due to software upgrade 00b. Not needed. [See Address 8001 Bits 7-6 = 10b] 1b = CFP2/CFP4 common MDIO port address scheme 03h CHECKSUM for 8000-807Eh inclusive n/a 20h Block Hex Name Addr Size Access Type 8 Bits Register Name Value Description LSB Unit NVR 2 8080 CFP 8082 2 Read Only 7-0 Module Temp High Alarm Threshold 4B00h Module Temp High Alarm Threshold: 75 °C 1/256° 2 Read Only 7-0 Module Temp High Warning Threshold 4600h Module Temp High Warning Threshold: 70 °C 8084 2 Read Only 7-0 Module Temp Low Warning Threshold 0000h Module Temp Low Warning Threshold: 0 °C 8086 2 Read Only 7-0 Module Temp Low Alarm Threshold FB00h 8088 808A 808C 808E 8090 8092 9094 8096 8098 809A 809C 809E 2 2 2 2 2 2 2 2 2 2 2 2 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 Module Vcc High Alarm Threshold Module Vcc High Warning Threshold Module Vcc Low Warning Threshold Module Vcc Low Alarm Threshold SOA threshold SOA threshold SOA threshold SOA threshold AUX1 threshold AUX1 threshold AUX1 threshold AUX1 threshold 8DCCh 875Ah 7A75h 7404h 00h 00h 00h 00h 00h 00h 00h 00h Module Temp Low Alarm Threshold: -5 °C Module Vcc High Alarm Threshold: 3.63 V Module Vcc High Warning Threshold: 3.465 V Module Vcc Low Warning Threshold: 3.315 V Module Vcc Low Alarm Threshold: 2.97 V not supported not supported not supported not supported not supported not supported not supported not supported 80A0 80A2 80A4 80A6 80A8 80AA 80AC 80AE 80B0 2 2 2 2 2 2 2 2 2 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 AUX2 threshold AUX2 threshold AUX2 threshold AUX2 threshold Laser Bias High Alarm Threshold Laser Bias High Warning Threshold Laser Bias Low Warning Threshold Laser Bias Low Alarm Threshold Laser PWR High Alarm Threshold 00h 00h 00h 00h 1388h 128Eh 01F4h 00FAh 5575h 80B2 2 Read Only 7-0 Laser PWR High Warning Threshold 43E2h 80B4 2 Read Only 7-0 Laser PWR Low Warning Threshold 06C9h 80B6 2 Read Only 7-0 Laser PWR Low Alarm Threshold 0564h 80B8 80BA 80BC 80BE 80C0 2 2 2 2 2 Read Only Read Only Read Only Read Only Read Only 7-0 7-0 7-0 7-0 7-0 Laser Temp threshold Laser Temp threshold Laser Temp threshold Laser Temp threshold Receive PWR High Alarm Threshold 00h 00h 00h 00h 5575h 80C2 2 Read Only 7-0 Receive PWR High Warning Threshold 43E2h 80C4 2 Read Only 7-0 Receive PWR Low Warning Threshold 0462h 80C6 2 Read Only 7-0 Receive PWR Low Alarm Threshold 02C3h 17 not supported not supported not supported not supported Laser Bias High Alarm Threshold: 10 mA Laser Bias High Warning Threshold: 9.5 mA Laser Bias Low Warning Threshold: 1 mA Laser Bias Low Alarm Threshold: 0.5 mA Laser PWR High Alarm Threshold: 3.4 dBm (Average Power) Laser PWR High Warning Threshold: 2.4 dBm (Average Power) Laser PWR Low Warning Threshold: -7.6 dBm (Average Power) Laser PWR Low Alarm Threshold: -8.6 dBm (Average Power) not supported not supported not supported not supported Receive PWR High Alarm Threshold: 3.4 dBm (Average Power) Receive PWR High Warning Threshold: 2.4 dBm (Average Power) Receive PWR Low Warning Threshold: -9.5 dBm (Average Power) Receive PWR Low Alarm Threshold: -11.5 dBm (Average Power) 0.1 mV 2 µA 0.1 µW 0.1 µW Block Hex Name Addr Size Access Type 8 Bits Register Name Value Description LSB Unit NVR 2 80C8 CFP 80CA 80CC 80CE 80DO 80D2 80D4 80D6 80D8 80DA 80DC 80DE 80EO 80E2 80E4 80E6 80E8 80EA 80EC 80EE 80F0 80F2 80F4 80F6 80F8 80FF 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 7 1 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 Rx Laser Bias Current Alarm Rx Laser Bias Current Warn Rx Laser Bias Current Alarm Rx Laser Bias Current Warn Rx Laser Output Pwr Alarm Rx Laser Output Pwr Warn Rx Laser Output Pwr Alarm Rx Laser Output Pwr Warn Rx Laser Temperature Alarm Rx Laser Temperature Warn Rx Laser Temperature Alarm Rx Laser Temperature Warn Tx Modulator Bias Alarm Tx Modulator Bias Warn Tx Modulator Bias Alarm Tx Modulator Bias Warn Host RX Opt Pwr High Alarm Host RX Opt Pwr High Warn Host RX Opt Pwr Low Alarm Host RX Opt Pwr Low Warn Host RX Opt Pwr High Alarm Host RX Opt Pwr High Warn Host RX Opt Pwr Low Alarm Host RX Opt Pwr Low Warn Reserved CFP NVR2 Checksum 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h 00h not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported not supported CHECKSUM for 8080-80FEh inclusive n/a Block Hex Name Addr Size Access Type 8 Bits Register Name Value Description LSB Unit NVR 3 8100 CFP 8120 8140 8160 32 32 32 32 7-0 7-0 7-0 7-0 Rx Sensitivity Spec Network Lanes Tx Power Spec Network Lanes Measured ER Network Lanes Path Penalty Network Lanes 00h 00h 00h 00h Not supported Not supported Not supported Not supported 0.01 dBm 0.01 dBm 0.01 dB 0.01 dB 18 Read Only Read Only Read Only Read Only Block Hex Name Addr Size Access Type 8 Bits Register Name Value Description LSB Unit NVR 4 8180 CFP 1 Read Only 7-0 Checksum for NVR 3 00h 8181 1 Read Only 7-0 Max MM OM4 fiber length 0Fh 8182 8184 8186 8188 818A 818C 818E 8190 8192 8194 8196 8198 81A0 81A8 81B0 81B8 81C0 81C6 81C7 2 2 2 2 2 2 2 2 2 2 2 8 8 8 8 8 6 1 1 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only 15-0 15-0 15-0 15-0 15-0 15-0 15-0 15-0 15-0 15-0 15-0 7-0 7-0 7-0 7-0 7-0 7-0 7-0 7 6 5 4 3 2 1 0 Extended Identifiers Extended Max Network Lane Rate Extended Max Power Consumption Extended Max Power Low Mode Tx/Rx Min Laser Frequency 1 Tx/Rx Min Laser Frequency 2 Tx/Rx Max Laser Frequency 1 Tx/Rx Max Laser Frequency 2 Rx Laser Fine Tune Freq Range Tx Laser Fine Tune Freq Range Laser Tuning Capabilities Reserved Network Lane n Vendor Specific Network Lane n Vendor Specific Network Lane n Vendor Specific Network Lane n Vendor Specific Reserved Host Lane Signal Mode Bit Map 1 Host Lane Signal Mode Bit Map 0 [ Reference Address 8074, A015 ] 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 00h 00h 00h 00h 00h 00h 00h 41h 81C8 81FF 47 1 Read Only Read Only 7-0 7-0 Reserved CFP NVR 4 Checksum 00h The 8-bit unsigned sum of all CFP NVR 3 contents from address 8100h through 817Fh, inclusive Decimal Value = 15 [i.e., 15 x 10 m = 150 m max OM4 length] Max OM3 length is 100 m in register 800E. Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported (0b bit 7) MLG1.0 not supported (1b bit 6) CPPI Supported (Default, CDRs off ) (0b bit 5) CEI-28G-VSR not supported (0b bit 4) CAUI-4f not supported (0b bit 3) CAUI-4 not supported (0b bit 2) SFI 5.2 not supported (0b bit 1) XLAUI not supported (1b bit 0) CAUI compatible supported (with CDRs on) Reserved The 8-bit unsigned sum of all CFP NVR 4 contents from address 8181h through 81FEh, inclusive Block Name Hex Addr Size Access Type 8 Bits Register Name Value Reserved 8200-83FF 512 Read Only 7-0 Reserved Description Block Name Hex Addr Size Access Type 8 Bits Register Name Value Vendor NVR1 8400-847F 128 Mixed 7-0 Vendor NVR 1. Vendor Data Registers 0000h Vendor NVR2 8480-84FF 128 Mixed 7-0 Vendor NVR 2. Vendor Data Registers 0000h 10 m Initial Value 0000h Description Initial Value Vendor NVR 1 and Vendor NVR 2 tables are allocated for storing additional data that can be used by the vendor. These are non-volatile fields. These fields can only be read it if the vendor password has been inputted. Default vendor password is defined in the MSA. The user cannot write to these registers even with a vendor password (hardcoded at the factory). 19 Block Name Hex Addr Size Access Type 8 Bits Register Name Value Description Initial Value Reserved 8500-87FF 768 Read Only 7-0 Reserved Block Name Hex Addr Size Access Type 8 Bits Register Name Value User NVR1 8800-887F 128 Mixed 7-0 User NVR 1. User Data Registers 0000h User NVR2 8880-88FF 128 Mixed 7-0 User NVR 2. User Data Registers 0000h 0000h Description Initial Value The User NVR 1 and User NVR 2 tables are allocated for module user to store data. User has the full read/write access to these tables. These registers are password accessible. Without an appropriate password, a read attempt shall return FFh. Read – only with password, returns FFFF if no password given. Write – only with same password. Once values have been written to these fields they are stored as non-volatile bytes. Block Name Hex Addr Size Access Type 8 Bits Register Name Value Reserved 8900-9FFF 5888 Read Only 7-0 Reserved Block Hex Name Addr VR 1 CFP A000 Description Initial Value 0000h Size Access Type 16 Bits Register Name Description 2 Write Only 15-0 Password Entry Password for module registers access control. Two word value. MSW is in the lower address. Reading these returns FFFFh. Password allows Non-Volatile Writes to 8800 [128 Bytes User Data Registers NVR1] 8880 [128 Bytes User Data Registers NVR2] Upon inputting the correct Password, the user has the full read/write access to these registers. Initial Value 0000h 0000h MSA specifies the default user password value as 0101 1100h. This opens up the User NVR1 and User NVR2 pages only in Registers 8800h and 8880h. Vendor NVR1 and 2 has a different password than the User NVR; it is 8101 1100h. This opens up the Vendor NVR1 and Vendor NVR2 pages only in Registers 8400h and 8480h. 20 A002A003 2 Write Only 15-0 Password Change New password entry. Two word value. MSW is in the lower address. Reading these returns FFFFh. The user password can be changed by writing the new value to the Password Change registers A002h and A003h after a password entry is successful. The new password value shall be stored and take effect only after writing the Save User Password command to register A004h. 0000h 0000h A004 1 Read Write 15-9 Reserved Not Supported. 0000h Read Only 8-6 Reserved Read Write 5 User Restore & Save Command Read Only 4 Reserved Read Only 3-2 Command Status 00b = Idle, 01b = Successful, 10b= In progress, 11 = Failed. See MSA section 4.10.2 “User NVR Restore and Save Functions” for proper operation Read Write 1-0 Extended Commands 00b = No effect. 11b = Restore/Save User NVRs See MSA section 4.10.2 “User NVR Restore and Save Functions” for proper operation 0= Restore User NVR Section, 1=Save User NVR Section See MSA section 4.10.2 “User NVR Restore and Save Functions” for proper operation Block Hex Name Addr VR 1 CFP A005 Size Access Type 16 Bits Register Name 1 Read Only 15-8 Reserved Read Write 7-0 PRG_CNTL3 Function Select Description Initial Value 0000h 7:0 RW This multi-function input is used as HW_IL_MSB during the Initialize State and it can be programmed to other functions afterward. = 0: Assert/De-Assert of PRG_CNTL3 has no effect, = 1: Assign TRXIC_RSTn function to hardware pins PRG_CNTL3. When so assigned this pin uses the active low logic, that is, 0 = Assert (Reset). Note that when so assigned, its soft counterpart Soft PRG_CNTL3 Control (A010h.12) uses an active high logic, that is, 1 = Assert (Reset). = 2-255: Reserved. A006 1 Read Only 15-8 Reserved Read Write 7-0 PRG_CNTL2 Function Select 0000h = 0: Assert/De-Assert of PRG_CNTL2 has no effect, = 1: Assign TRXIC_RSTn function to hardware pins PRG_CNTL2. When so assigned this pin uses the active low logic, that is, 0 = Assert (Reset). Note that when so assigned, its soft counterpart Soft PRG_CNTL2 Control (A010h.12) uses an active high logic, that is, 1 = Assert (Reset). = 2-255: Reserved. A007 A008 1 1 Read Only 15-8 Reserved Read Write 7-0 PRG_CNTL1 Function Select Read Only 15-8 Reserved Read Write 7-0 PRG_ALRM3 Function Source 0001h TRXIC_RSTn is the CFP MSA default function for PRG_CNTL1. = 0: Assert/De-Assert of PRG_CNTL1 has no effect, = 1: Assign TRXIC_RSTn function to hardware pins PRG_CNTL1. When so assigned this pin uses the active low logic, that is, 0 = Assert (Reset). Note that when so assigned, its soft counterpart Soft PRG_CNTL1 Control (A010h.12) uses an active high logic, that is, 1 = Assert (Reset). = 2-255: Reserved. 0003h 7-0 Alarm Source Code PRG_ALRM3; Selects, and assigns, an alarm source for PRG_ALRM3 PRG_ALRM3 MSA default = MOD_FAULT Fault State = 0: Not active, always de-asserted,[NOT SUPPORTED] = 1: HIPWR_ON,[SUPPORTED] = 2: Ready State,[SUPPORTED] = 3: Fault State, MSA default setting,[SUPPORTED] = 4: RX_ALRM = RX_LOS + RX_NETWORK_LOL, [SUPPORTED ONLY FOR RX_LOS, NOT FOR RX_NETWORK_LOL] = 5: TX_ALRM = TX_LOSF + TX_HOST_LOL + TX_CMU_LOL, [NOT SUPPORTED] = 6: RX_NETWORK_LOL,[NOT SUPPORTED] = 7: TX_LOSF,[NOT SUPPORTED] = 8: TX_HOST_LOL,[NOT SUPPORTED] = 9: OOA, Out of alignment, [NOT SUPPORTED] 21 Block Hex Name Addr VR 1 CFP A009 Size Access Type 16 Bits Register Name 1 Read Only 15-8 Reserved Read Write 7-0 PRG_ALRM2 Function Source Description Initial Value 0002h 7:0 Alarm Source Code PRG_ALRM2; Selects, and assigns, an alarm source for PRG_ALRM2 PRG_ALRM2 MSA default = MOD_READY, Ready State (startup sequence done), = 0: Not active, always de-asserted,[NOT SUPPORTED] = 1: HIPWR_ON,[SUPPORTED] = 2: Ready State,[SUPPORTED] = 3: Fault State, MSA default setting,[SUPPORTED] = 4: RX_ALRM = RX_LOS + RX_NETWORK_LOL, [SUPPORTED ONLY FOR RX_LOS, NOT FOR RX_NETWORK_LOL] = 5: TX_ALRM = TX_LOSF + TX_HOST_LOL + TX_CMU_LOL, [NOT SUPPORTED] = 6: RX_NETWORK_LOL,[NOT SUPPORTED] = 7: TX_LOSF,[NOT SUPPORTED] = 8: TX_HOST_LOL,[NOT SUPPORTED] = 9: OOA, Out of alignment, [NOT SUPPORTED] A00A 1 Read Only 15-8 Reserved Read Write 7-0 PRG_ALRM1 Function Source 0001h 7:0 Alarm Source Code PRG_ALRM1; Selects, and assigns, an alarm source for PRG_ALRM1 PRG_ALRM1 MSA default = HIPWR_ON Module high-power-on indicator. = 0: Not active, always de-asserted,[NOT SUPPORTED] = 1: HIPWR_ON,[SUPPORTED] = 2: Ready State,[SUPPORTED] = 3: Fault State, MSA default setting,[SUPPORTED] = 4: RX_ALRM = RX_LOS + RX_NETWORK_LOL, [SUPPORTED ONLY FOR RX_LOS, NOT FOR RX_NETWORK_LOL] = 5: TX_ALRM = TX_LOSF + TX_HOST_LOL + TX_CMU_LOL, [NOT SUPPORTED] = 6: RX_NETWORK_LOL,[NOT SUPPORTED] = 7: TX_LOSF,[NOT SUPPORTED] = 8: TX_HOST_LOL,[NOT SUPPORTED] = 9: OOA, Out of alignment, [NOT SUPPORTED] A00B A00CA00F 22 1 4 Read Only 15-3 Reserved Read Write 2-0 Bi-Directional Mode Select Read Only 7-0 Reserved 0000h Not supported. 0000h Block Hex Name Addr VR 1 CFP A010 Size 1 Access Type 16 Bits Register Name Description Initial Value Read Write 15 Soft MOD_RST control 1= Assert (similar to pin 28) 0000h 14 Soft MOD_LO_PWR control 1= Assert (similar to pin 26) 13 Soft Tx DIS Control (Global) 1= Assert (similar to pin 24) 12 Soft PRG_CNTL3 Control Register bit for PRG_CNTL3 control function. 1: Assert 11 Soft PRG_CNTL2 Control Register bit for PRG_CNTL2 control function. 1: Assert. 10 Soft PRG_CNTL1 Control Register bit for PRG_CNTL1 control function. 1: Assert. 9 Soft GLB_ALRM Test 1=Assert to Generate a GLB_ALRM signal on the pin 29 8-6 Reserved 5 Tx_DIS Pin Status (Global) Echoes pin 24 (Transmit Disable) 4 MOD_LO_PWR Pin Status Echoes pin 26 (Module Low Power Mode) 3 Soft PRG_CNTL3 Pin Status Logical state of the PRG_CNTL3 pin. 1: Assert. 2 Soft PRG_CNTL2 Pin Status Logical state of the PRG_CNTL2 pin. 1: Assert. 1 Soft PRG_CNTL1 Pin Status Logical state of the PRG_CNTL1 pin. 1: Assert. Read Only A011 A012 23 1 1 0 Reserved Read Only 15 Reserved Read Write 14 TX PRBS Generator Enable Not supported 1213 Tx PRBS Pattern Select Not supported 11 Tx DeSkew Enable Not supported 10 Tx FIFO Reset Not supported 9 TX FIFO Auto Reset Not supported 8 Tx Reset Not supported Not supported 0000h 7-5 TX Module MCLK Control Read Only 4 Reserved Read Write 3-1 TX Rate Select Not supported 0 TX REF CLK Rate Select Not supported Read Write 15 Active Decision Voltage/Phase Control Not supported 14 RX PRBS Checker Enable Not supported 1312 Rx PRBS Pattern Select Not supported 11 Rx Lock RX Module CLK to REF CLK Not supported 10 Network Lane Loopback (OWRAP) 0 = Normal Operation, 1 = Network lane OLoop/OWRAP Enable 9 RX FIFO Auto Reset Not supported 8 Rx Reset Not supported. 7-5 RX Module MCLK Control Not supported 4 Rx FIFO Reset Not supported 3-1 RX Rate Select (Host side) Not supported 0 RX REF CLK Rate Select Not supported 0000h Block Name Hex Addr Size Access Type VR 1 CFP A013 1 A014 A015 24 1 1 16 Bits Register Name Description 15 14 13 12 11 10 Tx_Disable Lane 15 (Network Lane) Tx_Disable Lane 14 (Network Lane) Tx_Disable Lane 13 (Network Lane) Tx_Disable Lane 12 (Network Lane) Tx_Disable Lane 11 (Network Lane) Tx_Disable Lane 10 (Network Lane) 9 Tx_Disable Lane 9 (Network Lane) 8 Tx_Disable Lane 8 (Network Lane) 7 Tx_Disable Lane 7 (Network Lane) 6 Tx_Disable Lane 6 (Network Lane) 5 Tx_Disable Lane 5 (Network Lane) Not supported Not supported Not supported Not supported Not supported 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 4 Tx_Disable Lane 4 (Network Lane) 3 Tx_Disable Lane 3 (Network Lane) 2 Tx_Disable Lane 2 (Network Lane) 1 Tx_Disable Lane 1 (Network Lane) 0 Tx_Disable Lane 0 (Network Lane) Read Only Read Write 15 14 13 12 11 10 Reserved Tx PRBS Checker Enable Tx PRBS Pattern 2 Tx PRBS Pattern 1 Tx PRBS Pattern 0 Host Lane Loop-back enable (EWRAP) Read Only Read Write 9-8 7 6 5 4 3-0 15 14 13-12 11 10 9 8 7-0 Reserved Rx PRBS Generator Enable Rx PRBS Pattern 2 Rx PRBS Pattern 1 Rx PRBS Pattern 0 Reserved Enable Tx Network PRBS Modes Enable Rx Network PRBS Modes MCLK Selection (CFP4) Tx Lane Offset Enable Rx Lane Offset Enable Rx PWR Monitor A/W Threshold Select Reserved Electrical Interface Format Select [ Reference Address 8074, 81C7 ] Read Write Read Only Read Write Initial Value 0000h 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0 = Laser Enabled, 1 = Laser Disabled (Laser turned OFF) 0000h Not supported Not supported Not supported Not supported 0 = Normal Operation, 1 = Host lane ELoop/EWRAP Enable Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported 01h = CDRs on 09h = CPPI (Default, CDRs off ) 0009h Block Hex Name Addr VR 1 CFP Access 16 Size Type Bits A016 1 A017 1 A018 1 Block Hex Name Addr VR 1 CFP 25 Read Only Read Only Read Only Access Size Type A019 1 Read Only Register Name Description 15-9 8 7 6 5 Reserved High Power Down State TX Turn Off State FAULT State (MOD_FAULT) READY State (MOD_READY) 4 3 2 1 0 15-0 TX Turn Off State TX Off State High Power Up State Low Power State Initialize State. Reserved 15 14 13 12 11 10 9 8 7 6-5 4 3 2-1 0 GLB_ALRM Assertion Status Host Lane FAULT/STATUS summary Network Lane FAULT/STATUS summary Network Lane ALARM/WARNING Summary Module ALARM/WARNING "2" Summary Module ALARM/WARNING "1" Summary Module FAULT Summary Module GENERAL STATUS summary Module STATE summary Reserved CDB Command Completed Vendor Specific FAWS Reserved Soft GLM_ALRM Test Status 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 15 Alarm & Warning Summary Lane 14 Alarm & Warning Summary Lane 13 Alarm & Warning Summary Lane 12 Alarm & Warning Summary Lane 11 Alarm & Warning Summary Lane 10 Alarm & Warning Summary Lane 9 Alarm & Warning Summary Lane 8 Alarm & Warning Summary Lane 7 Alarm & Warning Summary Lane 6 Alarm & Warning Summary Lane 5 Alarm & Warning Summary Lane 4 Alarm & Warning Summary Lane 3 Alarm & Warning Summary Lane 2 Alarm & Warning Summary Lane 1 Alarm & Warning Summary Lane 0 Alarm & Warning Summary Not supported Not supported Not supported Not supported Not supported Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Logic OR of enabled bits of Network Lane Alarms/Warnings Initial Value 0000h Transient. Not supported. Transient. Not supported 0b = No Fault. 1b = FAULT 0b = Not Ready. 1b = MODULE READY Realtime indicator. Module Fault can be caused by a Vcc Fault on internal indicator Transient. Not supported. 0b = Tx ON. 1b = Tx OFF (ie. Transmitters Disabled) Transient. Not supported. 0b = Full Operation. 1b = Low Power State Enabled Transient. Not supported. 0000h Echoes pin 29 Not supported Logic OR: Tx Opt OUT and Rx Opt IN Stages Logic OR: Tx Opt OUT and Rx Opt IN Flags Logic OR: All Alarm and Warning "2" Flags Logic OR: All Alarm and Warning "1" Flags Logic OR: All enabled inputs to Module FAULT Logic OR: All enabled inputs to Module GEN STATUS Logic OR: All enabled inputs to Module STATE 0000h Logic OR: CDB status, complete successful or failed Logic OR: All enable vendor specific FAWS Software GLB_ALRM Test bit Status Initial Value 0000h Block Hex Name Addr VR 1 CFP Access 16 Size Type Bits A01A 1 Read Only A01B 1 Read Only A01C 1 Read Only Read Only A01D 1 Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15-0 Lane 15 Network Lane FAULT & STATUS Lane 14 Network Lane FAULT & STATUS Lane 13 Network Lane FAULT & STATUS Lane 12 Network Lane FAULT & STATUS Lane 11 Network Lane FAULT & STATUS Lane 10 Network Lane FAULT & STATUS Lane 9 Network Lane FAULT & STATUS Lane 8 Network Lane FAULT & STATUS Lane 7 Network Lane FAULT & STATUS Lane 6 Network Lane FAULT & STATUS Lane 5 Network Lane FAULT & STATUS Lane 4 Network Lane FAULT & STATUS Lane 3 Network Lane FAULT & STATUS Lane 2 Network Lane FAULT & STATUS Lane 1 Network Lane FAULT & STATUS Lane 0 Network Lane FAULT & STATUS Lane 15 Host Lane FAULT & STATUS Lane 14 Host Lane FAULT & STATUS Lane 13 Host Lane FAULT & STATUS Lane 12 Host Lane FAULT & STATUS Lane 11 Host Lane FAULT & STATUS Lane 10 Host Lane FAULT & STATUS Lane 9 Host Lane FAULT & STATUS Lane 8 Host Lane FAULT & STATUS Lane 7 Host Lane FAULT & STATUS Lane 6 Host Lane FAULT & STATUS Lane 5 Host Lane FAULT & STATUS Lane 4 Host Lane FAULT & STATUS Lane 3 Host Lane FAULT & STATUS Lane 2 Host Lane FAULT & STATUS Lane 1 Host Lane FAULT & STATUS Lane 0 Host Lane FAULT & STATUS Reserved Not supported Not supported Not supported Not supported Not supported Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Logic OR of enabled bits of Network Lane FAULT & STATUS Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported 15-14 13 12-11 10 9 8 7 6 5 4 3 Reserved HW_Interlock Status Reserved LOSS of REF_CLK Input Alarm TX_JITTER_PLL_LOL Alarm TX_CMU_LOL Alarm TX_LOSF Alarm TX_HOST_LOL Alarm RX_LOS Alarm RX_NETWORK_LOL Alarm Out of Alignment Alarm (Host Lane Skew) Reserved HI_PWR_ON Status Reserved 2 1 0 26 Initial Value 0000h 0000h 0000h 0000h 0 = Safe to use Module, 1= Hotter than System Cooling Not supported Not supported Not supported Not supported Not supported 0 = Normal, 1 = RxLOS Logic OR all Network Lane RX LOS Not supported Not supported 0= Lower Power Mode, 1= Module in HI PWR MODE Block Name Hex Addr Size Access Type VR 1 CFP A01E 1 A01F Read Only A020 A021 A022 27 Read Only Read Only 1 1 Read Only Read/COR 16 Bits Register Name 15-7 6 5 Reserved PLD or FLASH Initialization FAULT Alarm Power Supply FAULT Alarm 4-2 1 0 15-12 11 10 9 8 7 6 5 4 3 2 1 0 15-8 7 6 5 4 3 2 1 0 15-0 15-9 8 7 6 5 4 3 Reserved CFP Checksum FAULT Alarm Reserved Reserved Module Temperature HIGH Alarm Module Temperature HIGH Warning Module Temperature LOW Warning Module Temperature LOW Alarm Module Vcc HIGH Alarm Module Vcc HIGH Warning Module Vcc LOW Warning Module Vcc LOW Alarm Module SOA HIGH Alarm Module SOA HIGH Warning Module SOA LOW Warning Module SOA LOW Alarm Reserved Module AUX1 HIGH Alarm Module AUX1 HIGH Warning Module AUX1 LOW Warning Module AUX1 LOW Alarm Module AUX2 HIGH Alarm Module AUX2 HIGH Warning Module AUX2 LOW Warning Module AUX2 LOW Alarm Reserved Reserved HI_PWR_DOWN Status latched TX_TURN_OFF Status latched FAULT Status latched READY Status latched TX_TURN_ON Status Latched TX_OFF Status Latched 2 1 HI_PWR_UP Status Latched LOW PWR Status latched 0 Initialize Status latched Description Initial Value 0000h Not supported 0=Normal, 1= Asserted: Internal power regulators declares fault status 0 =Normal, 1 = Asserted 0000h 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted Not supported Not supported Not supported Not Supported 0000h Not supported Not supported Not supported Not Supported Not supported Not supported Not supported Not Supported 0000h 0000h Transient. Not supported. Transient. Not supported 0b = No Fault. 1b = FAULT 0b = Not Ready. 1b = MODULE READY Transient. Not supported. 0b = Tx ON. 1b = Tx OFF (ie. Transmitters Disabled) Transient. Not supported. 0b = Full Operation. 1b = Low Power State Enabled Transient. Not supported. Block Name Hex Addr Size Access Type VR 1 CFP A023 1 A024 1 A025 28 Read/COR Read/COR A026 A027 Read/COR Read/COR 1 Read/COR 16 Bits Register Name 15-14 13 Reserved HW_Interlock Status latched 12-11 10 9 8 7 6 5 Reserved LOSS of REF_CLK Alarm latched TX_JITTER_PLL_LOL Alarm latched TX_CMU_LOL Alarm latched TX_LOSF Alarm latched TX_HOST_LOL Alarm latched RX_LOS Alarm latched 4 3 2-0 15-7 6 5 RX_NETWORK_LOL Alarm latched Out of Alignment Alarm (Host Skew) latched Reserved Reserved PLD or FLASH Init FAULT Alarm latched Power Supply FAULT Alarm Latched 4-2 1 0 15-12 11 10 9 8 7 6 5 4 3 2 1 0 15-8 7 6 5 4 3 2 1 0 15-0 Reserved CFP Checksum FAULT Alarm Latched Reserved Reserved Module Temperature HIGH Alarm Latched Module Temperature HIGH Warning Latched Module Temperature LOW Warning Latched Module Temperature LOW Alarm Latched Module Vcc HIGH Alarm Latched Module Vcc HIGH Warning Latched Module Vcc LOW Warning Latched Module Vcc LOW Alarm Latched Module SOA HIGH Alarm Latched Module SOA HIGH Warning Latched Module SOA LOW Warning Latched Module SOA LOW Alarm Latched Reserved Module AUX1 HIGH Alarm Latched Module AUX1 HIGH Warning Latched Module AUX1 LOW Warning Latched Module AUX1 LOW Alarm Latched Module AUX2 HIGH Alarm Latched Module AUX2 HIGH Warning Latched Module AUX2 LOW Warning Latched Module AUX2 LOW Alarm Latched Optional Vendor Specific FAWS Latch Description Initial Value 0000h 0 = Safe to use Module, 1= Hotter than System Cooling Not supported Not supported Not supported Not supported Not supported 0 = Normal, 1 = Latched. Note: Set to 1 on any change (0->1 or 1->0) of RxLOS Not supported Not supported 0000h Not supported 0=Normal, 1= Asserted: Logic OR of VCC Alarm High & Low 0 =Normal, 1 = Asserted 0000h 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted 0 =Normal, 1 = Asserted Not supported Not supported Not supported Not Supported 0000h Not supported Not supported Not supported Not Supported Not supported Not supported Not supported Not Supported Not Supported 0000h Block Name Hex Addr Size Access Type VR 1 CFP A028 1 A029 A02A A02B A02C 29 1 1 1 1 Read Only Read Write Read Write Read Only Read Write Read Only Read Write Read Only Read Only Read Write Read Only Read Write Read Only Read Only Read Only 16 Bits Register Name Description Initial Value 15-9 8 7 6 5 Reserved HI_PWR_DOWN (enable to GLB_ALRM) TX_TURN_OFF (enable to GLB_ALRM) FAULT enable (enable to GLB_ALRM) READY enable (enable to GLB_ALRM) 4 3 2 1 TX_TURN_ON (enable to GLB_ALRM) FAULT enable (enable to GLB_ALRM) HI_PWR_UP (enable to GLB_ALRM) LO_PWR enable (enable to GLB_ALRM) 0 15 14 13 12-11 10 9 8 7 6 5 4 3 0-2 15-7 6 5 4-2 1 0 15-12 11 10 9 8 7 6 5 4 3 2 1 0 15-8 7 6 5 4 3 2 1 0 Initialize enable (enable to GLB_ALRM) GLB_ALRM Master Enable Reserved HW_Interlock Enable to GLB_ALRM Reserved LOSS of REF_CLK (enable to GLB_ALRM) TX_JITTER_PLL_LOL (enable GLB_ALRM) TX_CMU_LOL Alarm (enable GLB_ALRM) TX_LOSF Alarm (enable to GLB_ALRM) TX_HOST_LOL Alarm (enable GLB_ALRM) RX_LOS (enable to GLB_ALRM) RX_NETWORK_LOL A (enable GLB_ALRM) Out of Alignment (enable to GLB_ALRM) Reserved Reserved PLD FLASH Init FAULT (enable GLB_ALRM) Power Supply FAULT (enable GLB_ALRM) Reserved CFP Checksum FAULT (enable GLB_ALRM) Reserved Reserved Module Temp HIGH Alarm (enable to GLB_ALRM) Module Temp HIGH Warning (enable to GLB_ALRM) Module Temp LOW Warning (enable to GLB_ALRM) Module Temp LOW Alarm (enable to GLB_ALRM) Module Vcc HIGH Alarm (enable to GLB_ALRM) Module Vcc HIGH Warning (enable to GLB_ALRM) Module Vcc LOW Warning (enable to GLB_ALRM) Module Vcc LOW Alarm (enable to GLB_ALRM) Module SOA HIGH Alarm (enable to GLB_ALRM) Module SOA HIGH Warning (enable to GLB_ALRM) Module SOA LOW Warning (enable to GLB_ALRM) Module SOA LOW Alarm (enable to GLB_ALRM) Reserved Module AUX1 HIGH Alarm (enable to GLB_ALRM) Module AUX1 HIGH Warning (enable to GLB_ALRM) Module AUX1 LOW Warning (enable to GLB_ALRM) Module AUX1 LOW Alarm (enable to GLB_ALRM) Module AUX2 HIGH Alarm (enable to GLB_ALRM) Module AUX2 HIGH Warning (enable to GLB_ALRM) Module AUX2 LOW Warning (enable to GLB_ALRM) Module AUX2 LOW Alarm (enable to GLB_ALRM) 006Ah Transient. Not supported. Transient. Not supported 0b = No Fault. 1b = FAULT 0b = Not Ready. 1b = MODULE READY Transient. Not supported. 0b = No Fault. 1b = FAULT Transient. Not supported. 0b = Full Operation. 1b = Low Power State Enabled Transient. Not supported. 0=disable, 1=enable A020h 0=disable, 1=enable Not supported Not supported Not supported Not supported Not supported 0=disable, 1=enable Not supported Not supported 0022h Not supported 0=disable, 1=enable 0=disable, 1=enable 0FF0h 0=disable, 1=enable 0=disable, 1=enable 0=disable, 1=enable 0=disable, 1=enable 0=disable, 1=enable 0=disable, 1=enable 0=disable, 1=enable 0=disable, 1=enable Not supported Not supported Not supported Not Supported 0000h Not supported Not supported Not supported Not Supported Not supported Not supported Not supported Not Supported Block Name Hex Addr Size Access Type 16 Bits Register Name Description VR 1 CFP A02D A02E A02F 1 1 1 Read Write Read Only Read Only 15-0 15-0 15-0 Optional Vendor Specific FAWS Enable Reserved Module Temperature Monitor A/D Value Not Supported A030 1 Read Only 15-0 Module VCC Monitor A/D Value Range 0 to 6.55 V. Accuracy ± 3%. Resolution 0.1 mV. 0000h A031 A032 A033 A034 A038 1 1 1 4 1 Read Only Read Only Read Only Read Only Read Only 0000h 0000h 0000h 00h 0000h 1 Read Only A03A A03C A03D A03E A03F A040 70 1 1 1 1 64 Read Only Read Write Read Write Read Write Read Write Read Only Module SOA Bias Current A/D Value Module AUX1 Monitor A/D Value Module AUX2 Monitor A/D Value Reserved Network Lane PRBS Data Count Exponent Network Lane PRBS Data Count Mantissa Host Lane PRBS Data Count Exponent Host Lane PRBS Data Count Mantissa Reserved Host Configured Rx Opt Power Hi Alarm Thresh Host Configured Rx Opt Power Hi Warn Thresh Host Configured Rx Opt Power Lo Alarm Thresh Host Configured Rx Opt Power Lo Warn Thresh Reserved Not supported Not supported Not supported A039 15-0 15-0 15-0 15-0 15-10 0-9 15-10 0-9 15-0 15-0 15-0 15-0 15-0 7-0 Block Name Hex Addr Size Access Type 16 Bits Register Name Description Initial Value VR 1 MLG A080 A0FF MLG Volatile Registers MLG Not supported 0000h Block Name Hex Addr Size Access Type 16 Bits Register Name Description Initial Value VR 1 Network Lanes A200 1 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 0: Laser Bias High Alarm Flag Lane 0: Laser Bias High Warning Flag Lane 0: Laser Bias Low Warning Flag Lane 0: Laser Bias Low Alarm Flag Lane 0: Laser PWR High Alarm Flag Lane 0: Laser PWR High Warning Flag Lane 0: Laser PWR Low Warning Flag Lane 0: Laser PWR Low Alarm Flag Lane 0: Laser Temp High Alarm Flag Lane 0: Laser Temp High Warning Flag Lane 0: Laser Temp Low Warning Flag Lane 0: Laser Temp Low Alarm Flag Lane 0: Rx PWR High Alarm Flag Lane 0: Rx PWR High Warning Flag Lane 0: Rx PWR Low Warning Flag Lane 0: Rx PWR Low Alarm Flag 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 30 128 Mixed Read Only Range -40/125 °C. Accuracy ± 3 °C. Resolution 1/256 °C. Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Not supported Initial Value 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 00h 00h Block Name Hex Addr Size Access Type VR 1 Network Lanes A201 1 Read Only A202 1 Read Only A203 1 Read Only 31 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 1: Laser Bias High Alarm Flag Lane 1: Laser Bias High Warning Flag Lane 1: Laser Bias Low Warning Flag Lane 1: Laser Bias Low Alarm Flag Lane 1: Laser PWR High Alarm Flag Lane 1: Laser PWR High Warning Flag Lane 1: Laser PWR Low Warning Flag Lane 1: Laser PWR Low Alarm Flag Lane 1: Laser Temp High Alarm Flag Lane 1: Laser Temp High Warning Flag Lane 1: Laser Temp Low Warning Flag Lane 1: Laser Temp Low Alarm Flag Lane 1: RX PWR High Alarm Flag Lane 1: RX PWR High Warning Flag Lane 1: RX PWR Low Warning Flag Lane 1: RX PWR Low Alarm Flag Lane 2: Laser Bias High Alarm Flag Lane 2: Laser Bias High Warning Flag Lane 2: Laser Bias Low Warning Flag Lane 2: Laser Bias Low Alarm Flag Lane 2: Laser PWR High Alarm Flag Lane 2: Laser PWR High Warning Flag Lane 2: Laser PWR Low Warning Flag Lane 2: Laser PWR Low Alarm Flag Lane 2: Laser Temp High Alarm Flag Lane 2: Laser Temp High Warning Flag Lane 2: Laser Temp Low Warning Flag Lane 2: Laser Temp Low Alarm Flag Lane 2: RX PWR High Alarm Flag Lane 2: RX PWR High Warning Flag Lane 2: RX PWR Low Warning Flag Lane 2: RX PWR Low Alarm Flag Lane 3: Laser Bias High Alarm Flag Lane 3: Laser Bias High Warning Flag Lane 3: Laser Bias Low Warning Flag Lane 3: Laser Bias Low Alarm Flag Lane 3: Laser PWR High Alarm Flag Lane 3: Laser PWR High Warning Flag Lane 3: Laser PWR Low Warning Flag Lane 3: Laser PWR Low Alarm Flag Lane 3: Laser Temp High Alarm Flag Lane 3: Laser Temp High Warning Flag Lane 3: Laser Temp Low Warning Flag Lane 3: Laser Temp Low Alarm Flag Lane 3: RX PWR High Alarm Flag Lane 3: RX PWR High Warning Flag Lane 3: RX PWR Low Warning Flag Lane 3: RX PWR Low Alarm Flag 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Initial Value 00h 00h 00h Block Name Hex Addr Size Access Type VR 1 Network Lanes A204 1 Read Only A205 1 Read Only A206 1 Read Only 32 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 4: Laser Bias High Alarm Flag Lane 4: Laser Bias High Warning Flag Lane 4: Laser Bias Low Warning Flag Lane 4: Laser Bias Low Alarm Flag Lane 4: Laser PWR High Alarm Flag Lane 4: Laser PWR High Warning Flag Lane 4: Laser PWR Low Warning Flag Lane 4: Laser PWR Low Alarm Flag Lane 4: Laser Temp High Alarm Flag Lane 4: Laser Temp High Warning Flag Lane 4: Laser Temp Low Warning Flag Lane 4: Laser Temp Low Alarm Flag Lane 4: RX PWR High Alarm Flag Lane 4: RX PWR High Warning Flag Lane 4: RX PWR Low Warning Flag Lane 4: RX PWR Low Alarm Flag Lane 5: Laser Bias High Alarm Flag Lane 5: Laser Bias High Warning Flag Lane 5: Laser Bias Low Warning Flag Lane 5: Laser Bias Low Alarm Flag Lane 5: Laser PWR High Alarm Flag Lane 5: Laser PWR High Warning Flag Lane 5: Laser PWR Low Warning Flag Lane 5: Laser PWR Low Alarm Flag Lane 5: Laser Temp High Alarm Flag Lane 5: Laser Temp High Warning Flag Lane 5: Laser Temp Low Warning Flag Lane 5: Laser Temp Low Alarm Flag Lane 5: RX PWR High Alarm Flag Lane 5: RX PWR High Warning Flag Lane 5: RX PWR Low Warning Flag Lane 5: RX PWR Low Alarm Flag Lane 6: Laser Bias High Alarm Flag Lane 6: Laser Bias High Warning Flag Lane 6: Laser Bias Low Warning Flag Lane 6: Laser Bias Low Alarm Flag Lane 6: Laser PWR High Alarm Flag Lane 6: Laser PWR High Warning Flag Lane 6: Laser PWR Low Warning Flag Lane 6: Laser PWR Low Alarm Flag Lane 6: Laser Temp High Alarm Flag Lane 6: Laser Temp High Warning Flag Lane 6: Laser Temp Low Warning Flag Lane 6: Laser Temp Low Alarm Flag Lane 6: RX PWR High Alarm Flag Lane 6: RX PWR High Warning Flag Lane 6: RX PWR Low Warning Flag Lane 6: RX PWR Low Alarm Flag 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Initial Value 0000h 0000h 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A207 1 Read Only A208 1 Read Only A209 1 Read Only A20A A20B A20C A20D A20E A20F 1 1 1 1 1 1 Read Only Read Only Read Only Read Only Read Only Read Only 33 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15-0 15-0 15-0 15-0 15-0 15-0 Lane 7: Laser Bias High Alarm Flag Lane 7: Laser Bias High Warning Flag Lane 7: Laser Bias Low Warning Flag Lane 7: Laser Bias Low Alarm Flag Lane 7: Laser PWR High Alarm Flag Lane 7: Laser PWR High Warning Flag Lane 7: Laser PWR Low Warning Flag Lane 7: Laser PWR Low Alarm Flag Lane 7: Laser Temp High Alarm Flag Lane 7: Laser Temp High Warning Flag Lane 7: Laser Temp Low Warning Flag Lane 7: Laser Temp Low Alarm Flag Lane 7: RX PWR High Alarm Flag Lane 7: RX PWR High Warning Flag Lane 7: RX PWR Low Warning Flag Lane 7: RX PWR Low Alarm Flag Lane 8: Laser Bias High Alarm Flag Lane 8: Laser Bias High Warning Flag Lane 8: Laser Bias Low Warning Flag Lane 8: Laser Bias Low Alarm Flag Lane 8: Laser PWR High Alarm Flag Lane 8: Laser PWR High Warning Flag Lane 8: Laser PWR Low Warning Flag Lane 8: Laser PWR Low Alarm Flag Lane 8: Laser Temp High Alarm Flag Lane 8: Laser Temp High Warning Flag Lane 8: Laser Temp Low Warning Flag Lane 8: Laser Temp Low Alarm Flag Lane 8: RX PWR High Alarm Flag Lane 8: RX PWR High Warning Flag Lane 8: RX PWR Low Warning Flag Lane 8: RX PWR Low Alarm Flag Lane 9: Laser Bias High Alarm Flag Lane 9: Laser Bias High Warning Flag Lane 9: Laser Bias Low Warning Flag Lane 9: Laser Bias Low Alarm Flag Lane 9: Laser PWR High Alarm Flag Lane 9: Laser PWR High Warning Flag Lane 9: Laser PWR Low Warning Flag Lane 9: Laser PWR Low Alarm Flag Lane 9: Laser Temp High Alarm Flag Lane 9: Laser Temp High Warning Flag Lane 9: Laser Temp Low Warning Flag Lane 9: Laser Temp Low Alarm Flag Lane 9: RX PWR High Alarm Flag Lane 9: RX PWR High Warning Flag Lane 9: RX PWR Low Warning Flag Lane 9: RX PWR Low Alarm Flag Lane 10: Network Lane Alarm/Warning Flags Lane 11: Network Lane Alarm/Warning Flags Lane 12: Network Lane Alarm/Warning Flags Lane 13: Network Lane Alarm/Warning Flags Lane 14: Network Lane Alarm/Warning Flags Lane 15: Network Lane Alarm/Warning Flags 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported Not supported Not supported Initial Value 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A210 1 A211 A212 A213 A214 A215 A216 A217 34 1 1 1 1 1 1 1 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only 16 Bits Register Name Description Initial Value 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 Lane 0: TEC, Wavelength, APD Faults Reserved Lane 0: TX_LOSF, TX_LOL Faults Reserved Lane 0: Rx_LOS Lane 0: Rx_LOL, RX_FIFO Fault Reserved Lane 1: TEC, Wavelength, APD Faults Reserved Lane 1: TX_LOSF, TX_LOL Faults Reserved Lane 1: Rx_LOS Lane 1: Rx_LOL, RX_FIFO Fault Reserved Lane 2: TEC, Wavelength, APD Faults Reserved Lane 2: TX_LOSF, TX_LOL Faults Reserved Lane 2: Rx_LOS Lane 2: Rx_LOL, RX_FIFO Fault Reserved Lane 3: TEC, Wavelength, APD Faults Reserved Lane 3: TX_LOSF, TX_LOL Faults Reserved Lane 3: Rx_LOS Lane 3: Rx_LOL, RX_FIFO Fault Reserved Lane 4: TEC, Wavelength, APD Faults Reserved Lane 4: TX_LOSF, TX_LOL Faults Reserved Lane 4: Rx_LOS Lane 4: Rx_LOL, RX_FIFO Fault Reserved Lane 5: TEC, Wavelength, APD Faults Reserved Lane 5: TX_LOSF, TX_LOL Faults Reserved Lane 5: Rx_LOS Lane 5: Rx_LOL, RX_FIFO Fault Reserved Lane 6: TEC, Wavelength, APD Faults Reserved Lane 6: TX_LOSF, TX_LOL Faults Reserved Lane 6: Rx_LOS Lane 6: Rx_LOL, RX_FIFO Fault Reserved Lane 7: TEC, Wavelength, APD Faults Reserved Lane 7: TX_LOSF, TX_LOL Faults Reserved Lane 7: Rx_LOS Lane 7: Rx_LOL, RX_FIFO Fault Reserved Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 00000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted Not supported 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A218 1 A219 35 1 Read Only Read Only A21A A21B A21C A21D A21E A21F A220 1 1 1 1 1 1 1 Read Only Read Only Read Only Read Only Read Only Read Only Read/COR A221 1 Read/COR 16 Bits Register Name Description Initial Value 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-0 15-0 15-0 15-0 15-0 15-0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 8: TEC, Wavelength, APD Faults Reserved Lane 8: TX_LOSF, TX_LOL Faults Reserved Lane 8: Rx_LOS Lane 8: Rx_LOL, RX_FIFO Fault Reserved Lane 9: TEC, Wavelength, APD Faults Reserved Lane 9: TX_LOSF, TX_LOL Faults Reserved Lane 9: Rx_LOS Lane 9: Rx_LOL, RX_FIFO Fault Reserved Lane 10: Network Lane Fault Status Lane 11: Network Lane Fault Status Lane 12: Network Lane Fault Status Lane 13: Network Lane Fault Status Lane 14: Network Lane Fault Status Lane 15: Network Lane Fault Status Lane 0: Laser Bias High Alarm Latch Lane 0: Laser Bias High Warning Latch Lane 0: Laser Bias Low Warning Latch Lane 0: Laser Bias Low Alarm Latch Lane 0: Laser PWR High Alarm Latch Lane 0: Laser PWR High Warning Latch Lane 0: Laser PWR Low Warning Latch Lane 0: Laser PWR Low Alarm Latch Lane 0: Laser Temp High Alarm Latch Lane 0: Laser Temp High Warning Latch Lane 0: Laser Temp Low Warning Latch Lane 0: Laser Temp Low Alarm Latch Lane 0: RX PWR High Alarm Latch Lane 0: RX PWR High Warning Latch Lane 0: RX PWR Low Warning Latch Lane 0: RX PWR Low Alarm Latch Lane 1: Laser Bias High Alarm Latch Lane 1: Laser Bias High Warning Latch Lane 1: Laser Bias Low Warning Latch Lane 1: Laser Bias Low Alarm Latch Lane 1: Laser PWR High Alarm Latch Lane 1: Laser PWR High Warning Latch Lane 1: Laser PWR Low Warning Latch Lane 1: Laser PWR Low Alarm Latch Lane 1: Laser Temp High Alarm Latch Lane 1: Laser Temp High Warning Latch Lane 1: Laser Temp Low Warning Latch Lane 1: Laser Temp Low Alarm Latch Lane 1: RX PWR High Alarm Latch Lane 1: RX PWR High Warning Latch Lane 1: RX PWR Low Warning Latch Lane 1: RX PWR Low Alarm Latch Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A222 1 Read/COR A223 1 Read/COR A224 1 Read/COR 36 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 2: Laser Bias High Alarm Latch Lane 2: Laser Bias High Warning Latch Lane 2: Laser Bias Low Warning Latch Lane 2: Laser Bias Low Alarm Latch Lane 2: Laser PWR High Alarm Latch Lane 2: Laser PWR High Warning Latch Lane 2: Laser PWR Low Warning Latch Lane 2: Laser PWR Low Alarm Latch Lane 2: Laser Temp High Alarm Latch Lane 2: Laser Temp High Warning Latch Lane 2: Laser Temp Low Warning Latch Lane 2: Laser Temp Low Alarm Latch Lane 2: RX PWR High Alarm Latch Lane 2: RX PWR High Warning Latch Lane 2: RX PWR Low Warning Latch Lane 2: RX PWR Low Alarm Latch Lane 3: Laser Bias High Alarm Latch Lane 3: Laser Bias High Warning Latch Lane 3: Laser Bias Low Warning Latch Lane 3: Laser Bias Low Alarm Latch Lane 3: Laser PWR High Alarm Latch Lane 3: Laser PWR High Warning Latch Lane 3: Laser PWR Low Warning Latch Lane 3: Laser PWR Low Alarm Latch Lane 3: Laser Temp High Alarm Latch Lane 3: Laser Temp High Warning Latch Lane 3: Laser Temp Low Warning Latch Lane 3: Laser Temp Low Alarm Latch Lane 3: RX PWR High Alarm Latch Lane 3: RX PWR High Warning Latch Lane 3: RX PWR Low Warning Latch Lane 3: RX PWR Low Alarm Latch Lane 4: Laser Bias High Alarm Latch Lane 4: Laser Bias High Warning Latch Lane 4: Laser Bias Low Warning Latch Lane 4: Laser Bias Low Alarm Latch Lane 4: Laser PWR High Alarm Latch Lane 4: Laser PWR High Warning Latch Lane 4: Laser PWR Low Warning Latch Lane 4: Laser PWR Low Alarm Latch Lane 4: Laser Temp High Alarm Latch Lane 4: Laser Temp High Warning Latch Lane 4: Laser Temp Low Warning Latch Lane 4: Laser Temp Low Alarm Latch Lane 4: RX PWR High Alarm Latch Lane 4: RX PWR High Warning Latch Lane 4: RX PWR Low Warning Latch Lane 4: RX PWR Low Alarm Latch 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Initial Value 0000h 0000h 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A225 1 Read/COR A226 1 Read/COR A227 1 Read/COR 37 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 5: Laser Bias High Alarm Latch Lane 5: Laser Bias High Warning Latch Lane 5: Laser Bias Low Warning Latch Lane 5: Laser Bias Low Alarm Latch Lane 5: Laser PWR High Alarm Latch Lane 5: Laser PWR High Warning Latch Lane 5: Laser PWR Low Warning Latch Lane 5: Laser PWR Low Alarm Latch Lane 5: Laser Temp High Alarm Latch Lane 5: Laser Temp High Warning Latch Lane 5: Laser Temp Low Warning Latch Lane 5: Laser Temp Low Alarm Latch Lane 5: RX PWR High Alarm Latch Lane 5: RX PWR High Warning Latch Lane 5: RX PWR Low Warning Latch Lane 5: RX PWR Low Alarm Latch Lane 6: Laser Bias High Alarm Latch Lane 6: Laser Bias High Warning Latch Lane 6: Laser Bias Low Warning Latch Lane 6: Laser Bias Low Alarm Latch Lane 6: Laser PWR High Alarm Latch Lane 6: Laser PWR High Warning Latch Lane 6: Laser PWR Low Warning Latch Lane 6: Laser PWR Low Alarm Latch Lane 6: Laser Temp High Alarm Latch Lane 6: Laser Temp High Warning Latch Lane 6: Laser Temp Low Warning Latch Lane 6: Laser Temp Low Alarm Latch Lane 6: RX PWR High Alarm Latch Lane 6: RX PWR High Warning Latch Lane 6: RX PWR Low Warning Latch Lane 6: RX PWR Low Alarm Latch Lane 7: Laser Bias High Alarm Latch Lane 7: Laser Bias High Warning Latch Lane 7: Laser Bias Low Warning Latch Lane 7: Laser Bias Low Alarm Latch Lane 7: Laser PWR High Alarm Latch Lane 7: Laser PWR High Warning Latch Lane 7: Laser PWR Low Warning Latch Lane 7: Laser PWR Low Alarm Latch Lane 7: Laser Temp High Alarm Latch Lane 7: Laser Temp High Warning Latch Lane 7: Laser Temp Low Warning Latch Lane 7: Laser Temp Low Alarm Latch Lane 7: RX PWR High Alarm Latch Lane 7: RX PWR High Warning Latch Lane 7: RX PWR Low Warning Latch Lane 7: RX PWR Low Alarm Latch 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Initial Value 0000h 0000h 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A228 1 Read/COR A229 1 Read/COR A22A A22B A22C A22D A22E A22F A230 1 1 1 1 1 1 1 Read/COR Read/COR Read/COR Read/COR Read/COR Read/COR Read/COR A231 38 1 Read/COR 16 Bits 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15-0 15-0 15-0 15-0 15-0 15-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 Register Name Description Lane 8: Laser Bias High Alarm Latch Lane 8: Laser Bias High Warning Latch Lane 8: Laser Bias Low Warning Latch Lane 8: Laser Bias Low Alarm Latch Lane 8: Laser PWR High Alarm Latch Lane 8: Laser PWR High Warning Latch Lane 8: Laser PWR Low Warning Latch Lane 8: Laser PWR Low Alarm Latch Lane 8: Laser Temp High Alarm Latch Lane 8: Laser Temp High Warning Latch Lane 8: Laser Temp Low Warning Latch Lane 8: Laser Temp Low Alarm Latch Lane 8: RX PWR High Alarm Latch Lane 8: RX PWR High Warning Latch Lane 8: RX PWR Low Warning Latch Lane 8: RX PWR Low Alarm Latch Lane 9: Laser Bias High Alarm Latch Lane 9: Laser Bias High Warning Latch Lane 9: Laser Bias Low Warning Latch Lane 9: Laser Bias Low Alarm Latch Lane 9: Laser PWR High Alarm Latch Lane 9: Laser PWR High Warning Latch Lane 9: Laser PWR Low Warning Latch Lane 9: Laser PWR Low Alarm Latch Lane 9: Laser Temp High Alarm Latch Lane 9: Laser Temp High Warning Latch Lane 9: Laser Temp Low Warning Latch Lane 9: Laser Temp Low Alarm Latch Lane 9: RX PWR High Alarm Latch Lane 9: RX PWR High Warning Latch Lane 9: RX PWR Low Warning Latch Lane 9: RX PWR Low Alarm Latch Lane 10: Network Lane Alarm/Warning Latch Lane 11: Network Lane Alarm/Warning Latch Lane 12: Network Lane Alarm/Warning Latch Lane 13: Network Lane Alarm/Warning Latch Lane 14: Network Lane Alarm/Warning Latch Lane 15: Network Lane Alarm/Warning Latch 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported Not supported Not supported Not supported Lane 0: TEC, APD, λ Fault Latch Reserved Lane 0: TX_LOSF,TX_LOL Fault Latch Reserved Lane 0: Rx_LOS Latch Lane 0: RX_LOL, RX_FIFO Fault Latch Reserved Lane 1: TEC, APD, λ Fault Latch Reserved Lane 1: TX_LOSF,TX_LOL Fault Latch Reserved Lane 1: Rx_LOS Latch Lane 1: RX_LOL, RX_FIFO Fault Latch Reserved Initial Value 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported Not supported 0 = Normal, 1 = Flag Asserted Not supported 0000h Block Name Hex Addr Size Access Type VR 1 Network Lanes A232 1 Read/COR A233 A234 A235 A236 A237 A238 39 1 1 1 1 1 1 Read/COR Read/COR Read/COR Read/COR Read/COR Read/COR 16 Bits Register Name Description Initial Value 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 15-13 12-8 7-6 5 4 3-2 1-0 Lane 2: TEC, APD, λ Fault Latch Reserved Lane 2: TX_LOSF,TX_LOL Fault Latch Reserved Lane 2: Rx_LOS Latch Lane 2: RX_LOL, RX_FIFO Fault Latch Reserved Lane 3: TEC, APD, λ Fault Latch Reserved Lane 3: TX_LOSF,TX_LOL Fault Latch Reserved Lane 3: Rx_LOS Latch Lane 3: RX_LOL, RX_FIFO Fault Latch Reserved Lane 4: TEC, APD, λ Fault Latch Reserved Lane 4: TX_LOSF,TX_LOL Fault Latch Reserved Lane 4: Rx_LOS Latch Lane 4: RX_LOL, RX_FIFO Fault Latch Reserved Lane 5: TEC, APD, λ Fault Latch Reserved Lane 5: TX_LOSF,TX_LOL Fault Latch Reserved Lane 5: Rx_LOS Latch Lane 5: RX_LOL, RX_FIFO Fault Latch Reserved Lane 6: TEC, APD, λ Fault Latch Reserved Lane 6: TX_LOSF,TX_LOL Fault Latch Reserved Lane 6: Rx_LOS Latch Lane 6: RX_LOL, RX_FIFO Fault Latch Reserved Lane 7: TEC, APD, λ Fault Latch Reserved Lane 7: TX_LOSF,TX_LOL Fault Latch Reserved Lane 7: Rx_LOS Latch Lane 7: RX_LOL, RX_FIFO Fault Latch Reserved Not supported 0000h 15-13 Lane 8: TEC, APD, λ Fault Latch Not supported 12-8 Reserved 7-6 Lane 8: TX_LOSF,TX_LOL Fault Latch 5 Reserved 4 Lane 8: Rx_LOS Latch 0 = Normal, 1 = Flag Asserted 3-2 Lane 8: RX_LOL, RX_FIFO Fault Latch Not supported 1-0 Reserved Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Not supported 0 = Normal, 1 = Flag Asserted Not supported Not supported 0000h Block Name Hex Addr Size Access Type 16 Bits Register Name Description Initial Value VR 1 Network Lanes A239 1 Read/COR 15-13 Lane 9: TEC, APD, λ Fault Latch Not supported 0000h 12-8 Reserved 7-6 Lane 9: TX_LOSF,TX_LOL Fault Latch 5 Reserved 4 Lane 9: Rx_LOS Latch 0 = Normal, 1 = Flag Asserted 3-2 Lane 9: RX_LOL, RX_FIFO Fault Latch Not supported 40 Not supported 1-0 Reserved A23A 1 Read/COR 15-0 Lane 10: Network Lane Fault Status Latch Not supported 0000h A23B 1 Read/COR 15-0 Lane 11: Network Lane Fault Status Latch Not supported 0000h A23C 1 Read/COR 15-0 Lane 12: Network Lane Fault Status Latch Not supported 0000h A23D 1 Read/COR 15-0 Lane 13: Network Lane Fault Status Latch Not supported 0000h A23E 1 Read/COR 15-0 Lane 14: Network Lane Fault Status Latch Not supported 0000h A23F 1 Read/COR 15-0 Lane 15: Network Lane Fault Status Latch Not supported 0000h A240 1 Read Write 1 Read Write Lane 0: Laser Bias High Alarm Enable Lane 0: Laser Bias High Warning Enable Lane 0: Laser Bias Low Warning Enable Lane 0: Laser Bias Low Alarm Enable Lane 0: Laser PWR High Alarm Enable Lane 0: Laser PWR High Warning Enable Lane 0: Laser PWR Low Warning Enable Lane 0: Laser PWR Low Alarm Enable Lane 0: Laser Temp High Alarm Enable Lane 0: Laser Temp High Warning Enable Lane 0: Laser Temp Low Warning Enable Lane 0: Laser Temp Low Alarm Enable Lane 0: RX PWR High Alarm Enable Lane 0: RX PWR High Warning Enable Lane 0: RX PWR Low Warning Enable Lane 0: RX PWR Low Alarm Enable Lane 1: Laser Bias High Alarm Enable Lane 1: Laser Bias High Warning Enable Lane 1: Laser Bias Low Warning Enable Lane 1: Laser Bias Low Alarm Enable Lane 1: Laser PWR High Alarm Enable Lane 1: Laser PWR High Warning Enable Lane 1: Laser PWR Low Warning Enable Lane 1: Laser PWR Low Alarm Enable Lane 1: Laser Temp High Alarm Enable Lane 1: Laser Temp High Warning Enable Lane 1: Laser Temp Low Warning Enable Lane 1: Laser Temp Low Alarm Enable Lane 1: RX PWR High Alarm Enable Lane 1: RX PWR High Warning Enable Lane 1: RX PWR Low Warning Enable Lane 1: RX PWR Low Alarm Enable 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted FF0Fh A241 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 FF0Fh Bloc Name Hex Addr Size Access Type VR 1 A242 Network Lanes 1 Read Write A243 1 Read Write A244 1 Read Write 41 16 Bits Register Name Description 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 2: Laser Bias High Alarm Enable Lane 2: Laser Bias High Warning Enable Lane 2: Laser Bias Low Warning Enable Lane 2: Laser Bias Low Alarm Enable Lane 2: Laser PWR High Alarm Enable Lane 2: Laser PWR High Warning Enable Lane 2: Laser PWR Low Warning Enable Lane 2: Laser PWR Low Alarm Enable Lane 2: Laser Temp High Alarm Enable Lane 2: Laser Temp High Warning Enable Lane 2: Laser Temp Low Warning Enable Lane 2: Laser Temp Low Alarm Enable Lane 2: RX PWR High Alarm Enable Lane 2: RX PWR High Warning Enable Lane 2: RX PWR Low Warning Enable Lane 2: RX PWR Low Alarm Enable Lane 3: Laser Bias High Alarm Enable Lane 3: Laser Bias High Warning Enable Lane 3: Laser Bias Low Warning Enable Lane 3: Laser Bias Low Alarm Enable Lane 3: Laser PWR High Alarm Enable Lane 3: Laser PWR High Warning Enable Lane 3: Laser PWR Low Warning Enable Lane 3: Laser PWR Low Alarm Enable Lane 3: Laser Temp High Alarm Enable Lane 3: Laser Temp High Warning Enable Lane 3: Laser Temp Low Warning Enable Lane 3: Laser Temp Low Alarm Enable Lane 3: RX PWR High Alarm Enable Lane 3: RX PWR High Warning Enable Lane 3: RX PWR Low Warning Enable Lane 3: RX PWR Low Alarm Enable Lane 4: Laser Bias High Alarm Enable Lane 4: Laser Bias High Warning Enable Lane 4: Laser Bias Low Warning Enable Lane 4: Laser Bias Low Alarm Enable Lane 4: Laser PWR High Alarm Enable Lane 4: Laser PWR High Warning Enable Lane 4: Laser PWR Low Warning Enable Lane 4: Laser PWR Low Alarm Enable Lane 4: Laser Temp High Alarm Enable Lane 4: Laser Temp High Warning Enable Lane 4: Laser Temp Low Warning Enable Lane 4: Laser Temp Low Alarm Enable Lane 4: RX PWR High Alarm Enable Lane 4: RX PWR High Warning Enable Lane 4: RX PWR Low Warning Enable Lane 4: RX PWR Low Alarm Enable 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Initial Value FF0Fh FF0Fh FF0Fh Block Name Hex Addr Size Access Type 16 Bits Register Name Description VR 1 Network Lanes A245 1 Read Write A246 1 Read Write A247 1 Read Write 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Lane 5: Laser Bias High Alarm Enable Lane 5: Laser Bias High Warning Enable Lane 5: Laser Bias Low Warning Enable Lane 5: Laser Bias Low Alarm Enable Lane 5: Laser PWR High Alarm Enable Lane 5: Laser PWR High Warning Enable Lane 5: Laser PWR Low Warning Enable Lane 5: Laser PWR Low Alarm Enable Lane 5: Laser Temp High Alarm Enable Lane 5: Laser Temp High Warning Enable Lane 5: Laser Temp Low Warning Enable Lane 5: Laser Temp Low Alarm Enable Lane 5: RX PWR High Alarm Enable Lane 5: RX PWR High Warning Enable Lane 5: RX PWR Low Warning Enable Lane 5: RX PWR Low Alarm Enable Lane 6: Laser Bias High Alarm Enable Lane 6: Laser Bias High Warning Enable Lane 6: Laser Bias Low Warning Enable Lane 6: Laser Bias Low Alarm Enable Lane 6: Laser PWR High Alarm Enable Lane 6: Laser PWR High Warning Enable Lane 6: Laser PWR Low Warning Enable Lane 6: Laser PWR Low Alarm Enable Lane 6: Laser Temp High Alarm Enable Lane 6: Laser Temp High Warning Enable Lane 6: Laser Temp Low Warning Enable Lane 6: Laser Temp Low Alarm Enable Lane 6: RX PWR High Alarm Enable Lane 6: RX PWR High Warning Enable Lane 6: RX PWR Low Warning Enable Lane 6: RX PWR Low Alarm Enable Lane 7: Laser Bias High Alarm Enable Lane 7: Laser Bias High Warning Enable Lane 7: Laser Bias Low Warning Enable Lane 7: Laser Bias Low Alarm Enable Lane 7: Laser PWR High Alarm Enable Lane 7: Laser PWR High Warning Enable Lane 7: Laser PWR Low Warning Enable Lane 7: Laser PWR Low Alarm Enable Lane 7: Laser Temp High Alarm Enable Lane 7: Laser Temp High Warning Enable Lane 7: Laser Temp Low Warning Enable Lane 7: Laser Temp Low Alarm Enable Lane 7: RX PWR High Alarm Enable Lane 7: RX PWR High Warning Enable Lane 7: RX PWR Low Warning Enable Lane 7: RX PWR Low Alarm Enable 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 42 Initial Value FF0Fh FF0Fh FF0Fh Block Name Hex Addr Size Access Type 16 Bits Register Name Description VR 1 Network Lanes A248 1 Read Write A249 1 Read Write A24A A24B A24C A24D A24E A24F A250 1 1 1 1 1 1 1 Read Only Read Only Read Only Read Only Read Only Read Only Read Write 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 15-0 15-0 15-0 15-0 15-0 15-0 15-13 12-8 7-6 5 4 3 2 1-0 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported Not supported Not supported Not supported 43 Lane 8: Laser Bias High Alarm Enable Lane 8: Laser Bias High Warning Enable Lane 8: Laser Bias Low Warning Enable Lane 8: Laser Bias Low Alarm Enable Lane 8: Laser PWR High Alarm Enable Lane 8: Laser PWR High Warning Enable Lane 8: Laser PWR Low Warning Enable Lane 8: Laser PWR Low Alarm Enable Lane 8: Laser Temp High Alarm Enable Lane 8: Laser Temp High Warning Enable Lane 8: Laser Temp Low Warning Enable Lane 8: Laser Temp Low Alarm Enable Lane 8: RX PWR High Alarm Enable Lane 8: RX PWR High Warning Enable Lane 8: RX PWR Low Warning Enable Lane 8: RX PWR Low Alarm Enable Lane 9: Laser Bias High Alarm Enable Lane 9: Laser Bias High Warning Enable Lane 9: Laser Bias Low Warning Enable Lane 9: Laser Bias Low Alarm Enable Lane 9: Laser PWR High Alarm Enable Lane 9: Laser PWR High Warning Enable Lane 9: Laser PWR Low Warning Enable Lane 9: Laser PWR Low Alarm Enable Lane 9: Laser Temp High Alarm Enable Lane 9: Laser Temp High Warning Enable Lane 9: Laser Temp Low Warning Enable Lane 9: Laser Temp Low Alarm Enable Lane 9: RX PWR High Alarm Enable Lane 9: RX PWR High Warning Enable Lane 9: RX PWR Low Warning Enable Lane 9: RX PWR Low Alarm Enable Lane 10: Alarm/Warning Enable Lane 11: Alarm/Warning Enable Lane 12: Alarm/Warning Enable Lane 13: Alarm/Warning Enable Lane 14: Alarm/Warning Enable Lane 15: Alarm/Warning Enable Lane 0: TEC, Wavelength, APD Fault Reserved Lane 0: TX_LOSF, TX_LOL Fault Enables Reserved Lane 0: Rx_LOS Enable Lane 0: Rx_LOL Enable Lane 0: RX_FIFO Fault Enable Reserved Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported Initial Value FF0Fh FF0Fh 0000h 0000h 0000h 0000h 0000h 0000h 0010h Block Name Hex Addr Size Access Type VR 1 Network Lanes A251 1 A252 A253 A254 A255 A256 44 1 1 1 1 1 Read Write Read Write Read Write Read Write Read Write Read Write 16 Bits Register Name Description Initial Value 15-13 12-8 7-6 5 4 3 2 1-0 15-13 12-8 7-6 5 4 3 2 1-0 15-13 12-8 7-6 5 4 3 2 1-0 15-13 12-8 7-6 5 4 3 2 1-0 15-13 12-8 7-6 5 4 3 2 1-0 15-13 12-8 7-6 5 4 3 2 1-0 Lane 1: TEC, Wavelength, APD Fault Reserved Lane 1: TX_LOSF, TX_LOL Fault Enables Reserved Lane 1: Rx_LOS Enable Lane 1: Rx_LOL Enable Lane 1: RX_FIFO Fault Enable Reserved Lane 2: TEC, Wavelength, APD Fault Enables Reserved Lane 2: TX_LOSF, TX_LOL Fault Enables Reserved Lane 2: Rx_LOS Enable Lane 2: Rx_LOL Enable Lane 2: RX_FIFO Fault Enable Reserved Lane 3: TEC, Wavelength, APD Fault Reserved Lane 3: TX_LOSF, TX_LOL Fault Enables Reserved Lane 3: Rx_LOS Enable Lane 3: Rx_LOL Enable Lane 3: RX_FIFO Fault Enable Reserved Lane 4: TEC, Wavelength, APD Fault Reserved Lane 4: TX_LOSF, TX_LOL Fault Enables Reserved Lane 4: Rx_LOS Enable Lane 4: Rx_LOL Enable Lane 4: RX_FIFO Fault Enable Reserved Lane 5: TEC, Wavelength, APD Fault Reserved Lane 5: TX_LOSF, TX_LOL Fault Enables Reserved Lane 5: Rx_LOS Enable Lane5: Rx_LOL Enable Lane 5: RX_FIFO Fault Enable Reserved Lane 6: TEC, Wavelength, APD Fault Reserved Lane 6: TX_LOSF, TX_LOL Fault Enables Reserved Lane 6: Rx_LOS Enable Lane 6: Rx_LOL Enable Lane 6: RX_FIFO Fault Enable Reserved Not supported 0010h Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported 0010h Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported 0010h Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported 0010h Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported 0010h Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported Not supported Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported 0010h Block Name Hex Addr Size Access Type 16 Bits Register Name Description Initial Value VR 1 Network Lanes A257 1 15-13 12-8 7-6 5 4 3 2 1-0 Lane 7: TEC, Wavelength, APD Fault Reserved Lane 7: TX_LOSF, TX_LOL Fault Enables Reserved Lane 7: Rx_LOS Enable Lane 7: Rx_LOL Enable Lane 7: RX_FIFO Fault Enable Reserved Not supported 0010h 15-13 Lane 8: TEC, Wavelength, APD Fault Enables Not supported 12-8 Reserved 7-6 Lane 8: TX_LOSF, TX_LOL Fault Enables 5 Reserved 4 Lane 8: Rx_LOS Enable 0 = Normal, 1 = Enable Asserted 3 Lane 8: Rx_LOL Enable Not supported 2 Lane 8: RX_FIFO Fault Enable Not supported 1-0 Reserved 15-13 Lane 9: TEC, Wavelength, APD Fault Enables 12-8 Reserved 7-6 Lane 9: TX_LOSF, TX_LOL Fault Enables 5 Reserved 4 Lane 9: Rx_LOS Enable 0 = Normal, 1 = Enable Asserted 3 Lane 9: Rx_LOL Enable Not supported 2 Lane 9: RX_FIFO Fault Enable Not supported A258 A259 45 1 1 Read Write Read Write Read Only Not supported 0 = Normal, 1 = Enable Asserted Not supported Not supported 0010h Not supported Not supported 0010h Not supported 1-0 Reserved A25A 1 Read Only 15-0 Lane 10: Extra Alarm/Warning Flag Enable Not supported 0000h A25B 1 Read Only 15-0 Lane 11: Extra Alarm/Warning Flag Enable Not supported 0000h A25C 1 Read Only 15-0 Lane 12: Extra Alarm/Warning Flag Enable Not supported 0000h A25D 1 Read Only 15-0 Lane 13: Extra Alarm/Warning Flag Enable Not supported 0000h A25E 1 Read Only 15-0 Lane 14: Extra Alarm/Warning Flag Enable Not supported 0000h A25F 1 Read Only 15-0 Lane 15: Extra Alarm/Warning Flag Enable Not supported 0000h A260 32 Read Only 15-0 Reserved 0000h Block Name Hex Addr Size 16 Access Type Bits Register Name Description VR 2 Network Lanes A280 A290 A2A0 16 16 1 Read Only Read Only Read Only 15-0 15-0 15-0 Network Lane FEC Controls Network Lane PRBS Rx Error Count Lane 0: TX Bias Current Monitor A/D Value A2A1 15-0 Lane 1: TX Bias Current Monitor A/D Value A2A2 15-0 Lane 2: TX Bias Current Monitor A/D Value A2A3 15-0 Lane 3: TX Bias Current Monitor A/D Value A2A4 15-0 Lane 4: TX Bias Current Monitor A/D Value A2A5 15-0 Lane 5: TX Bias Current Monitor A/D Value A2A6 15-0 Lane 6: TX Bias Current Monitor A/D Value A2A7 15-0 Lane 7: TX Bias Current Monitor A/D Value A2A8 15-0 Lane 8: TX Bias Current Monitor A/D Value A2A9 15-0 Lane 9: TX Bias Current Monitor A/D Value 15-0 15-0 15-0 15-0 15-0 15-0 15-0 Lane 10: TX Bias Current Monitor A/D Value Lane 11: TX Bias Current Monitor A/D Value Lane 12: TX Bias Current Monitor A/D Value Lane 13: TX Bias Current Monitor A/D Value Lane 14: TX Bias Current Monitor A/D Value Lane 15: TX Bias Current Monitor A/D Value Lane 0: Tx Optical PWR Monitor A/D Value Not supported Not supported Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131mA. Accuracy ± 10%. Resolution 2 µA. Range 0 - 131 mA. Accuracy ± 10%. Resolution 2 µA. Not supported Not supported Not supported Not supported Not supported Not supported A2B1 15-0 Lane 1: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B2 15-0 Lane 2: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B3 15-0 Lane 3: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B4 15-0 Lane 4: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B5 15-0 Lane 5: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B6 15-0 Lane 6: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B7 15-0 Lane 7: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B8 15-0 Lane 8: Tx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2B9 15-0 Lane 9: Tx Optical PWR Monitor A/D Value 0000h 15-0 15-0 15-0 15-0 15-0 15-0 15-0 Lane 10: Tx Optical PWR Monitor A/D Value Lane 11: Tx Optical PWR Monitor A/D Value Lane 12: Tx Optical PWR Monitor A/D Value Lane 13: Tx Optical PWR Monitor A/D Value Lane 14: Tx Optical PWR Monitor A/D Value Lane 15: Tx Optical PWR Monitor A/D Value Network Lane Tx Laser Temperature A/D Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. Not supported Not supported Not supported Not supported Not supported Not supported Not supported A2AA A2AB A2AC A2AD A2AE A2AF A2B0 A2BA A2BB A2BC A2BD A2BE A2BF A2C0 46 1 1 1 1 1 1 1 1 1 1 1 1 1 16 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. Initial Value 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h 0000h Block Name Hex Addr Size 16 Access Type Bits Register Name Description Initial Value VR 2 Network Lanes (Cont.) A2D0 1 Read Only 15-0 Lane 0: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D1 15-0 Lane 1: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D2 15-0 Lane 2: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D3 15-0 Lane 3: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D4 15-0 Lane 4: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D5 15-0 Lane 5: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D6 15-0 Lane 6: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D7 15-0 Lane 7: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D8 15-0 Lane 8: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. 0000h A2D9 15-0 Lane 9: Rx Optical PWR Monitor A/D Value Range 0 to 6.5 mW. Accuracy ± 2 dB. Resolution 0.1 µW. Average Power. Not supported Not supported Not supported Not supported Not supported Not supported 0000h A2DA A2DB A2DC A2DD A2DE A2DF A2E0 1 1 1 1 1 1 32 Read Only Read Only Read Only Read Only Read Only Read Only Read Only 15-0 15-0 15-0 15-0 15-0 15-0 15-0 Lane 10: Rx Optical PWR Monitor A/D Value Lane 11: Rx Optical PWR Monitor A/D Value Lane 12: Rx Optical PWR Monitor A/D Value Lane 13: Rx Optical PWR Monitor A/D Value Lane 14: Rx Optical PWR Monitor A/D Value Lane 15: Rx Optical PWR Monitor A/D Value Reserved Block Name Hex Addr Size Access Type 16 Bits Register Name Description Initial Value VR 3 Network Lanes A300 A3FF 128 Mixed 15-0 Optional Network Lane VR 3 Registers Not supported 0000h 47 0000h 0000h 0000h 0000h 0000h 0000h 0000h Block Name Hex Addr Size Access Type 16 Bits Register Name Description Initial Value VR 1 Host Lanes A400 A410 A420 A430 A440 16 16 16 16 1 Read Only Read, COR Read Write Read Only Read Write Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Write Read Only Read Only Read Only Read Only Read Only Read Only Read Only 15-0 15-0 15-0 15-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15 14-8 7-4 3-0 15-0 15-0 15-0 15-0 15-0 15-0 15-0 Host Lane FAWS Registers Host Lane FAWS Registers - Latched Host Lane FAWS Registers - Enable Host Lane PRBS Tx Error Count Lane 0: Host Lane EQ Control Mode Lane 0: Host Lane Equalization Value Reserved Lane 0: Host Lane Pre/De Emphasis Value Lane 1: Host Lane EQ Control Mode Lane 1: Host Lane Equalization Value Reserved Lane 1: Host Lane Pre/De Emphasis Value Lane 2: Host Lane EQ Control Lane 2: Host Lane Equalization Reserved Lane 2: Host Lane Pre/De Emphasis Lane 3: Host Lane EQ Control Lane 3: Host Lane Equalization Reserved Lane 3: Host Lane Pre/De Emphasis Lane 4: Host Lane EQ Control Lane 4: Host Lane Equalization Reserved Lane 4: Host Lane Pre/De Emphasis Lane 5: Host Lane EQ Control Lane 5: Host Lane Equalization Reserved Lane 5: Host Lane Pre/De Emphasis Lane 6: Host Lane EQ Control Lane 6: Host Lane Equalization Reserved Lane 6: Host Lane Pre/De Emphasis Lane 7: Host Lane EQ Control Lane 7: Host Lane Equalization Reserved Lane 7: Host Lane Pre/De Emphasis Lane 8: Host Lane EQ Control Lane 8: Host Lane Equalization Reserved Lane 8: Host Lane Pre/De Emphasis Lane 9: Host Lane EQ Control Lane 9: Host Lane Equalization Reserved Lane 9: Host Lane Pre/De Emphasis Lane 10: Host Lane Pre/De Emphasis Lane 11: Host Lane Pre/De Emphasis Lane 12: Host Lane Pre/De Emphasis Lane 13: Host Lane Pre/De Emphasis Lane 14: Host Lane Pre/De Emphasis Lane 15: Host Lane Pre/De Emphasis Reserved Not supported Not supported Not supported Not supported 1b = Fixed in manual mode 0000h 0000h 0000h 0000h D807h A441 A442 A443 A444 A445 A446 A447 A448 A449 A44A A44B A44C A44D A44E A44F A450 48 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 48 Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported 1b = Fixed in manual mode D807h Not supported Not supported Not supported Not supported Not supported Not supported Not supported 00h 00h 00h 00h 00h 00h ( 20.75 ) Case Temperature Definition 41.50 CASE TEMPERATURE ( 36.52 ) CFP2 Mechanical Outline Bail Latch Color is Beige with one center black band to indicate 10G/fiber operation, 100GE-SR10 compliance and 100 m OM3 Multi-Mode fiber (150 m OM4) capability 8.05 12.40 0.2 16.15 2.5 MAX 91.70 54.10 1.30 8.10 7.51 41.50 0.2 CFP2 MODULE DRAWING 31.40 38.50 107.50 ALL DIMENSIONS ARE IN MM CFP2 Module Insertion, Extraction Forces Parameter Maximum Unit Notes Maximum Insertion Force 80 N Without Heat Sink Maximum Extraction Force** 50 N Without Heat Sink Minimum Retention Force 90 N No damage to module below 90 N Minimum Cage Retention Force 180 N No damage to cage latch below 180 N ** In order to extract the module, the latch bar needs to be pulled out and rotated all the way downward. By design, the latch bar needs to rotate 90 degrees for the module to be extracted. For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries. Data subject to change. Copyright © 2005-2014 Avago Technologies. All rights reserved. AV02-4410EN - December 23, 2014