Part Number Change Notice for 10G Cable & Transceiver Modules

20-01-2026 - Part Number Change Notice for 10G Cable & Transceiver Modules FS announces a part number change for the optical modules and cables listed below. This is solely a product part number change announcement - functionality remains completely unaffected when using the new part numbers. The updated numbering system is designed to streamline the customer ordering process. 1. Direct Attach Cables (DACs) & Active Optical Cables (AOCs) Former Part Number Upgraded Part Number Date SFPP-PCxx (0.5m-7m) SFP-10G-PCxxx (0.5m-7m) April 15, 2024 SFPP-ACxx (1m-10m) SFP-10G-ACxxx (1m-10m) SFPP-AOxx (1m-30m) SFP-10G-AOxxx (1m-30m) SFPP-AOxx-I (1m-70m) SFP-10G-AOxxx-I (1m-70m) XFP-PC02 (2m) XFP-10G-PC02 2. SFP+/XFP Modules (Fiber & Copper) Former Part Number Upgraded Part Number Date SFP-10GSR-85 (300m) SFP-10GSR-85 August 10, 2024 SFP-10GSR-85 (300m, Dual-Rate) SFP-10GMSR-85 SFP-10GSR-85-I (300m, Dual-Rate) SFP-10GMSR-85-I SFP-10GLR-31 (20km) SFP-10GELR-31 SFP-10GLR-31 (20km, Ind) SFP-10GELR-31-I SFP-10GLR-31 (10km, Dual-Rate) SFP-10GMLR-31 SFP-10GLR-31 (10km, Dual-Rate, Ind) SFP-10GMLR-31-I SFP-1/10GLR20-I (20km, Ind) SFP-10GMELR-31-I SFP-10GLRM-31 (2km, SMF) SFP-10GLRL-31 SFP-10GZRC-55 (100km) SFP-10GZR100-55 SFP-10GZRC-55-I (100km) SFP-10GZR100-55-I SFP-10GZRC-120 (120km) SFP-10GZR120-55 SFP-10G-T (30m) SFP-10G-T-30 SFP-10G-T (80m) SFP-10G-T-80 SFP-10G-T100 (100m) SFP-10G-T-100 SFP-10G-T-I (30m) SFP-10G-T-30I SFP-10GM-T (30m) SFP-10GM-T-30 XFP-10GZRC-55 (100km) XFP-10GZR100-55 3. Transmission Modules Former Part Number Upgraded Part Number Date DWCxx-10GSFP-100 DW-SFP10G100-xx May 14, 2025 DWDM-SFP10G-80-I DW-SFP10G80-xx-I DWDM-SFP10GH-80 DW-SFP10G80-xxx DWDM-SFP10G-80 DW-SFP10G80-xx DWDM-SFP10G-40-I DW-SFP10G40-xx-I DWDM-SFP10G-40 DW-SFP10G40-xx DWDM-SFP10GH-40 DW-SFP10G40-xxx DW-SFP10G-80-C DW-SFP10G80-C DW-SFP10G-40-C DW-SFP10G40-C DW-10GSFP-40-C-I DW-SFP10G40-C-I DW-10GSFP-80-C-I DW-SFP10G80-C-I CWDM-SFP10G-80-I CW-SFP10G80-xx-I June 12, 2025 CWDM-SFP10G-80L CW-SFP10G80-xx CWDM-SFP10G-40-I CW-SFP10G40-xx-I CWxx-10GSFP-10-I CW-SFP10G10-xx-I CWDM-SFP10G-40S (40km, 1270-1450nm) CW-SFP10G40-xx CWDM-SFP10G-40L (40km, 1470-1610nm) CWDM-SFP10G-20SP (20km, 1270-1330nm) CW-SFP10G20-xx CWDM-SFP10G-20S (20km, 1350-1450nm) CWDM-SFP10G-20L (20km, 1470-1610nm) CWDM-SFP10G-10SP (10km, 1270-1330nm) CW-SFP10G10-xx CWDM-SFP10G-10M (10km, 1350nm-1610nm) 4. Loopback Modules Former Part Number Upgraded Part Number Date 10GSFP-LPM SFP-LOOP-10G August 10, 2024 5. SFP+ Modules (BIDI) Former Part Number Upgraded Part Number Date SFP-10G-BX (1270nm-TX/1330nm-RX 10km) SFP-10G23-BX10 February 20, 2025 SFP-10G-BX (1330nm-TX/1270nm-RX 10km) SFP-10G32-BX10 SFP-10G-BX (1270nm-TX/1330nm-RX 20km) SFP-10G23-BX20 SFP-10G-BX (1330nm-TX/1270nm-RX 20km) SFP-10G32-BX20 SFP-10G-BX40 (1270nm-TX/1330nm-RX 40km) SFP-10G23-BX40 SFP-10G-BX40 (1330nm-TX/1270nm-RX 40km) SFP-10G32-BX40 SFP-10G-BX60 (1270nm-TX/1330nm-RX 60km) SFP-10G23-BX60 SFP-10G-BX60 (1330nm-TX/1270nm-RX 60km) SFP-10G32-BX60 SFP-10G-BX80 (1490nm-TX/1550nm-RX 80km) SFP-10G45-BX80 SFP-10G-BX80 (1550nm-TX/1490nm-RX 80km) SFP-10G54-BX80 SFP-10G-BX100 (1490nm-TX/1550nm-RX 100km) SFP-10G45-BX100 SFP-10G-BX100 (1550nm-TX/1490nm-RX 100km) SFP-10G54-BX100 SFP-10G-BX-I (1270nm-TX/1330nm-RX 10km, Ind) SFP-10G23-BX10-I SFP-10G-BX-I (1330nm-TX/1270nm-RX 10km, Ind) SFP-10G32-BX10-I SFP-10G-BX-I (1270nm-TX/1330nm-RX 20km, Ind) SFP-10G23-BX20-I SFP-10G-BX-I (1330nm-TX/1270nm-RX 20km, Ind) SFP-10G32-BX20-I SFP-10G-BX40-I (1270nm-TX/1330nm-RX 40km, Ind) SFP-10G23-BX40-I SFP-10G-BX40-I (1330nm-TX/1270nm-RX 40km, Ind) SFP-10G32-BX40-I SFP-10G-BX60-I (1270nm-TX/1330nm-RX 60km, Ind) SFP-10G23-BX60-I SFP-10G-BX60-I (1330nm-TX/1270nm-RX 60km, Ind) SFP-10G32-BX60-I SFP-10G-BX80-I (1490nm-TX/1550nm-RX 80km, Ind) SFP-10G45-BX80-I SFP-10G-BX80-I (1550nm-TX/1490nm-RX 80km, Ind) SFP-10G54-BX80-I XFP-10G-BX (1270nm-TX/1330nm-RX 10km) XFP-10G23-BX10 XFP-10G-BX (1330nm-TX/1270nm-RX 10km) XFP-10G32-BX10 XFP-10G-BX (1270nm-TX/1330nm-RX 20km) XFP-10G23-BX20 XFP-10G-BX (1330nm-TX/1270nm-RX 20km) XFP-10G32-BX20 XFP-10G-BX40 (1270nm-TX/1330nm-RX 40km) XFP-10G23-BX40 XFP-10G-BX40 (1330nm-TX/1270nm-RX 40km) XFP-10G32-BX40 XFP-10G-BX60 (1270nm-TX/1330nm-RX 60km) XFP-10G23-BX60 XFP-10G-BX60 (1330nm-TX/1270nm-RX 60km) XFP-10G32-BX60 XFP-10G-BX80 (1270nm-TX/1330nm-RX 80km) XFP-10G23-BX80 XFP-10G-BX80 (1330nm-TX/1270nm-RX 80km) XFP-10G32-BX80 Customer Impact of Change and Recommended Action: No functional changes - There is no change to the fit or function of the products. Customers may receive either label until the old inventory is depleted. No action required - No action is needed by customers. Questions? - Please Contact Us for any questions or concerns.

Optical Transceiver Modules Quick Start Guide V3.0

07-01-2026 - For details, please click the attachment icon below to view or download for a good reading experience or resources.

10G Modules and Cables Visio Stencils

24-12-2025 - For details, please click the attachment icon below to view or download for a good reading experience or resources.

24-12-2025 - For details, please click the attachment icon below to view or download for a good reading experience or resources.

SFP-10G-T-30 MTBF Test Report

01-12-2025 - SFP-10G-T-30 MTBF Test Report 1. About MTBF Report This report provides an authoritative, data-driven reliability prediction assessment for our products based on industry-recognized component failure rate databases and handbooks (Telcordia SR-332). Key metrics include the Failure Rate (FIT) and Mean Time Between Failures (MTBF). The core results are highly dependent on the specified operating temperature and environmental stress input conditions. Changes to these conditions will significantly impact the predicted values. Therefore, this constitutes a statistical reliability assessment during the product design phase and is not a measured guarantee of product lifespan. 2. What is MTBF? MTBF is the acronym for Mean Time Between Failures. It is calculated as MTBF = (Total Operational Time) / (Total Number of Failures). It is a key reliability metric—not a measure of product “lifetime” or “warranty period”—but an estimate of the average continuous operational time between failures under defined conditions. Unit: It is typically expressed in hours. For example, an MTBF of 1,000,000 hours indicates that within a large sample of these products, the ratio of total operational time to the total number of failures is one million hours—meaning the average time interval between failures is one million hours. This is not a promise of the lifetime for any single individual product. 3. Reliability Prediction Report Reliability Prediction Summary Part Number SFP-10G-T-30 Date 2017-01-14 Calculation Model SR-332 Issue 3 Environmental Factor 1 Stress Factor at 50% 1 Temperature Factor@40℃ 1 Failure Rate (FIT) 77.16 MTBF (Hours) 13,000,000 @40 °C; 60% CL. 148.51 67,300,000 @40 °C; 90% CL. Component And Part Description Quantity (FITs) (FITs) Quality Factor Total Total Capacitors 106 0.1 0.01 1 10.6 1.06 Resistor 30 0.08 0.02 1 2.4 0.6 Inductor 3 0.24 0.07 1 0.72 0.21 Thermistor 1 5.1 3.6 1 5.1 3.6 PCB 1 0.13 0.01 1 0.13 0.01 connector 40 0.13 0.088 1 5.2 3.52 Transistor 1 0.69 0.31 1 0.69 0.31 Transformer 1 3 0.9 1 3 0.9 Crystal 1 3.2 12 1 3.2 12 EMI filter 1 0.48 0.14 1 0.48 0.14 Drive/Power/IC 7 6.4 4.525 1 44.8 31.674 Total & 76.32 54.02 Shape κ = = = 2.00 Scale θ = = = 38.24 4. Explanation of Terms Parameter Full Form Explanation Quantity Quantity Refers to the number of this specific part or component used in the product. This number is multiplied to calculate the total failure rate contribution. FIT Failures in Time The unit for failure rate. 1 FIT = 1 failure per billion (10⁹) device operating hours. @xx °C Ambient Temperature The Failure in Time (FIT) and MTBF/MTTF values reported are predicted based on a specific operating ambient temperature. For example, @ 40°C indicates "at an ambient temperature of 40 degrees Celsius." xx% CL. Confidence Level A statistical measure of certainty for the prediction. For example, 90% CL means: "We are 90% confident that the true product failure rate is equal to or lower than the reported FIT value" (or equivalently, "the true MTBF is equal to or higher than the reported MTBF value"). This indicates a conservative reliability estimate. 5. Report Usage Guidelines To accurately interpret and apply the data in this report, please note the following: Ambient Temperature: The MTBF values correspond to specific operating temperatures (e.g., @40°C, @60°C, @80°C). Please refer to the value that matches your actual deployment conditions. Note that failure rates increase significantly with temperature, in accordance with the Arrhenius equation. Statistical Nature: MTBF is a projection of population reliability and should not be interpreted as a guarantee of individual unit lifespan.

SFP-10G-T-30 Data Sheet

28-11-2025 - SFP-10G-T-30 Data Sheet 10GBASE-T SFP+ Copper RJ-45 30m Transceiver SFP-10G-T-30 CO-2.jpg Application 10GBASE-T 10G Ethernet Features Hot-pluggable SFP footprint Support 10GBASE-T Compact RJ-45 connector assembly Commercial Temperature Range: 0 to 70 ℃ Single +3.3V power supply 10 Gigabit Ethernet over Cat6a/Cat7 cable RoHS compliant and lead-free Description 10GBASE-T standards as specified in IEEE Std 802.3. 10GBASE-T SFP+ copper transceivers use the SFP's RX_LOS pin for link indication. If pull up SFP's TX_DISABLE pin, PHY GBASE-T SFP+ copper transceivers are based on the SFP Multi-Source Agreement (MSA). They are compatible with the 10GBASE-T / IC will be reset. The SFP-10G-T-30 is designed for 10GBase-T operation and is incompatible with 1G ports due to electrical signaling requirements. While physically insertable into 1G ports, link establishment is not supported. For 1G-T connectivity requirements, the SFP-GE-T (1GBase-T) module is recommended as the compatible alternative. Product Specifications I. SFP+ to Host Connector Pin Out Pin Signal Name Description MSA Note 1 VEET Transmitter ground (common with receiver ground) 2 TFAULT Transmitter Fault. Not supported,Grounded in module Note 1 3 TDIS Transmitter Disable - Module disables on high or open Note 2 4 MOD_DEF(2) Module Definition 2. Data line for Serial ID. Note 3 5 MOD_DEF(1) Module Definition 1. Clock line for Serial ID. Note 3 6 MOD_DEF(0) Module Definition 0. Grounded in module. Note 3 7 Rate Select No connection 8 LOS Loss of Signal - High Indicates Loss of Signal Note 4 9 VEER Receiver Ground (common with transmitter ground) 10 VEER Receiver Ground (common with transmitter ground) 11 VEER Receiver Ground(common with transmitter ground) 12 RD- Receiver Inverted DATA out. AC Coupled Note 5 13 RD+ Receiver Non-inverted DATA out. AC Coupled Note 5 14 VEER Receiver Ground (common with transmitter ground) 15 VCCR Receiver Power Supply Note 6 16 VCCT Transmitter Power Supply Note 6 17 VEET Transmitter Ground (Common with Receiver Ground) 18 TD+ Transmitter Non-Inverted DATA in. AC Coupled. Note 7 19 TD- Transmitter Inverted DATA in. AC Coupled. Note 7 20 VEET Transmitter Ground(common with receiver ground) Note: 1. TX Fault is not used and is always tied to ground. 2. TX Disable as described in the MSA is not applicable to the module, but is used for convenience as an input to reset the internal ASIC. This pin is pulled up within the module with a 4.7 Kohm resistor. Low (0–0.8 V): Transceiver on Between (0.8 V and 2.0 V): Undefined High (2.0–3.465 V): Transceiver in reset disable state Open: Transceiver in reset disable state 3. Mod-Def 0, 1, 2. These are the module definition pins. They should be pulled up with a 4.7-10 Kohm resistor on the host board to a supply less than VCCT+ 0.3 V or VCCR+ 0.3 V. Mod Def 0 is tied to ground to indicate that the module is present. Mod-Def 1 is clock line of two wire serial interface for optional serial ID. Mod-Def 2 is data line of two wire serial interface for optional serial ID. 4. This pin is open drain CMOS output signals. They should be pulled up with a 4.7-10 Kohm resistor on the host board to a supply less than VCCT + 0.3 V or VCCR + 0.3 V. (see Table 3. Low-Speed Signals, Electronic Characteristics) 5. RD-/+: These are the differential receiver outputs. They are ac coupled 100 ohm differential lines which should be terminated with 100 ohm differential at the user SerDes. The ac coupling is done inside the module and is thus not required on the host board. The voltage swing on these lines will be between 370 and 2000 mV differential (185 – 1000 mV single ended) when properly terminated. These levels are compatible with CML and LVPECL voltage swings. 6. VCCR and VCCT are the receiver and transmitter power supplies. They are defined as 3.3 V ± 5% at the SFP connector pin. The maximum supply current is about 300mA and the associated in-rush current will typically be no more than 30 mA above steady state after 500 nanoseconds. 7. TD-/+: These are the differential transmitter inputs. They are ac coupled differential lines with 100 ohm differential termination inside the module. The ac coupling is done inside the module and is thus not required on the host board. The inputs will accept differential swings of 500 – 2400 mV (250 –1200 mV single ended), though it is recommended that values between 500 and 1200 mV differential (250 – 600 mV single ended) be used for best EMI performance. These levels are compatible with CML and LVPECL voltage swings. II. SFP+ to Host Connector Pin Out and RJ45 Connector Diagram image.png Figure 1a. Diagram of Host Board Connector Block Pin Numbers and Names image.png Figure1b. MDI ( RJ 45 Jack) Pin Assignment III. Recommended Interface Circuit image.png Figure 2. Recommended Interface Circuit IV. Recommended Host Board Power Supply Circuit image.png Figure 3. Recommended Host Board Power Supply Circuit V. Power Supply Interface Electronic Characteristics The SFP-10G-T-30 has an input voltage range of 3.3 V +/- 5%. The 4V maximum voltage is not allowed for continuous operation. Parameter Symbol Min Typ. Max Unit Notes/Conditions Supply Current ls 650 700 mA At 10GBase-t Cat 6a/7 30m 2.5W max power over full range of voltage and temperature. See caution note below Input Voltage Vcc 3.135 3.3 3.465 V Referenced to GND Caution: Power consumption and surge current are higher than the specified values in the SFP MSA Vl. Low-Speed Signals MOD_DEF (1) (SCL) and MOD_DEF (2) (SDA) are open drain CMOS signals. Both MOD_ DEF (1) and MOD_DEF (2) must be pulled up to host_Vcc. Table 3. Low-Speed Signals, Electronic Characteristics Parameter Symbol Min. Max. Unit Note/Conditions SFP Output LOW VOL 0 0.5 V 4.7k to 10k pull-up to host_Vcc. SFP Output HIGH VOH host_Vcc - 0.5 host_Vcc + 0.3 V 4.7k to 10k pull-up to host_Vcc. SFP Input LOW VIL 0 0.8 V 4.7k to 10k pull-up to Vcc. SFP Input HIGH VIH 2 Vcc + 0.3 V V 4.7k to 10k pull-up to Vcc. Vll. High-Speed Electrical Interface All high-speed signals are AC-coupled internally. Table 4. High-Speed Electrical Interface, Transmission Line-SFP+ Parameter Symbol Min Typ. Max Unit Notes/Conditions Line Frequency 10.3125 GHz XFI to Copper Tx Output Impedance Zout,TX 100 Ohm Differential Rx Input Impedance Zin,RX 100 Ohm Differential Table 5. High-Speed Electrical Interface, Host-SFP+ Parameter Symbol Min. Typical Max. Unit Note/Conditions Data Input: Transmitter Differential Input Voltage (TD +/-) Vinsing 500 800 1100 mV Data Output: Receiver Differential Output Voltage (RD +/-) Voutsing 500 800 1100 mV Rise/Fall Time Tr,Tf 25 47 psec 20%-80% Tx Input Impedance Zin 50 Ohm Single ended Rx Output Impedance Zout 50 Ohm Single ended Table 6. General Specifications General Specifications Parameter Symbol Min. Typical Max. Unit Note/Conditions Data Rate BR 10.3125 Gb/s IEEE 802.3 compatible. Cable Length L 30 m @10GBase-T .Category 6a/7 BER < Notes: 1. Automatic crossover detection is enabled. External crossover cable is not required. 2. 10GBASE-T operation requires the host system to have an XFI interface with no clocks. VIII. Environmental Specifications The SFP-10G-T-30 has an range from 0°C to +70°C case temperature as specified in Table 7. Table 7. Environmental Specifications Parameter Symbol Min. Typical Max. Unit Notes/Conditions Operating Temperature Top 0 70 °C Case temperature Storage Temperature Tsto -40 85 °C Ambient temperature IX. Serial Communication Protocol Table 8. Specification Parameter Symbol Min. Typical Max. Unit Note/Conditions Clock Rate 100 200 Hz X. Serial ID Memory Contents: The HTSFP- XG – 1111TF provides standard serial ID information compliant with SFP MSA, which can be accessed with address of A0h via the 2-wire serial CMOS EEPROM protocol. Address Field Size (Byte) Name of Field Description and Contents Hex Base ID Fields 0 1 Identifier Type of Serial transceiver (SFP) 03 1 1 Ext. Identifier Extended identifier of type serial transceiver (MOD4) 04 2 1 Connector Code of optical connector type (Copper) 22 3-10 8 Transceiver 10G Base-XFI to Copper 10 00 00 00 00 00 00 00 11 1 Encoding 64B/66B 06 12 1 BR,Nominal Nominal baud rate, unit of 100 MBd 10.3125 GBd For 10GBase-T 67 13 1 Rate Identifier Type of rate select functionality (Unspecified) 00 14 1 Length (SMF 9um)-km Link length supported for single mode fiber, units of km 00 15 1 Length (SMF 9um) Link length supported for 9/125um fiber, units of 100m 00 16 1 Length (50um) Link length supported for 50/125um OM2 fiber, units of 10m 00 17 1 Length (62.5um) Link length supported for 62.5/125um OM1 fiber, units of 10m 00 18 1 Length (OM4 or copper cable) Link length supported for 50um OM4 fiber, units of 10m. Alternatively copper or direct attach cable, units of m. For copper links, this value specifies minimum link length (30m) supported by the transceiver while operating in compliance with applicable standards using copper cable. 1E 19 1 Length (OM3) Link length supported for 50 um OM3 fiber, units of 10 m 00 20-35 16 Vendor Name SFP vendor name (ASCII), "FS " 36 1 Transceiver Code for electronic or optical compatibility 00 37-39 3 Vendor OUI SFP vendor IEEE company ID, A value of all zero in the 3-byte field indicates that the Vendor OUI is unspecified. 00 00 00 40-55 16 Vendor PN Part number provided by SFP vendor (ASCII) “SFP-10G-T-30” 48 54 53 46 50 2D 58 47 2D 31 31 31 31 54 46 20 56-59 4 Vendor rev Part number provided by SFP vendor (ASCII). A value of all zero in the 4-byte field indicates that the vendor revision is unspecified. (1.0 revision) 31 2E 30 20 60-61 2 Wavelength Laser wavelength (Passive/Active Cable Specification Compliance). A value of 00h for both A0h Byte 60 and Byte 61 denotes laser wavelength or cable specification compliance is unspecified. 00 00 62 1 Unallocated 00 63 1 CC_BASE Check code for Base ID Fields Least significant byte of Check sum of data in address 0 to 62 xx 63 1 CCID Least significant byte of Check sum of data in address 0-62 xx Extended ID Fields 64-65 2 Option Indicates which optional transceiver signals are implemented TX_DISABLE and RX_LOS are implemented 00 12 66 1 BR, max Upper bit rate margin, units of %. A value of 00h indicates that this field is not specified 67 1 BR, min Lower bit rate margin, units of % A value of 00h indicates that this field is not specified. 68-83 16 Vendor SN Serial number provided by vendor (ASCII) xx xx xx xx xx xx xx xx xx xx xx xx xx xx xx xx 84-91 8 Date code Manufacturing date code Year (2 bytes), Month (2 bytes), Day (2 bytes) vendor specific lot code, may be blank (2 bytes) xx xx xx xx xx xx xx xx 92 1 Diagnostic Monitoring Type Indicates which type of diagnostic monitoring is implemented (if any) in the transceiver 00 93 1 Enhanced Options Indicates which optional enhanced features are implemented (if any) in the transceiver 00 94 1 SFF-8472 Compliance Indicates which revision of SFF-8472 the transceiver complies with. A value of 00h indicates Digital diagnostic functionality not included or undefined. 00 95 1 CC_EX Check code for the extended ID Fields (addresses 64 to 94) xx Vendor Specific ID Fields 96-127 32 Vendor specific Vendor Specific EEPROM, all 00 128-255 128 Reserved Reserved for SFF-8079 all 00 XI. Mechanical Drawing image.png Figure 4. Mechanical Diagram of Copper SFP+ Test Center I. Compatibility Testing Each fiber optical transceiver has been tested in host device on site in FS Assured Program to ensure full compatibility with over 200 vendors. image.png Above is part of our test bed network equipment. For more information, please click the Test Bed PDF. It will be updated in real time as we expand our portfolio. II. Performance Testing Each fiber optical transceiver has been fully tested in FS Assured Program equipped with world's most advanced analytical equipment to ensure that our transceivers work perfectly on your device. image.png Order Information Part Number Description SFP-10GSR-85 10GBASE-SR SFP+ 850nm 300m DOM Transceiver SFP-10GLRM-31 10GBASE-LRM SFP+ 1310nm 220m DOM Transceiver SFP-10GLR-31 10GBASE-LR SFP+ 1310nm 10km DOM Transceiver SFP-10GER-55 10GBASE-ER SFP+ 1550nm 40km DOM Transceiver SFP-10GZR-55 10GBASE-ZR SFP+ 1550nm 80km DOM Transceiver SFP-10GZR100-55 10GBASE-ZR SFP+ 1550nm 100km DOM Transceiver SFP-10GMSR-85 Dual-Rate 1000BASE-SX and 10GBASE-SR SFP+ 850nm 300m DOM Transceiver SFP-10GMLR-31 Dual-Rate 1000BASE-LX and 10GBASE-LR SFP+1310nm 10km DOM Transceiver SFP-10G-T-30 10GBASE-T SFP+ Copper 30m RJ-45 Transceiver Module SFP-10GM-T-30 10M/100M/1G/2.5G/5G/10Gbps NBASE-T SFP+ Copper 30m RJ-45 Transceiver Module SFP-10G-T-30-RP 10GBASE-T SFP+ Copper 30m RJ-45 Transceiver Module with Reduced Power Consumption SFP-10G-T-30I 10GBASE-T SFP+ Copper 30m RJ-45 Industrial Transceiver Module SFP-10G-T-80 10GBASE-T SFP+ Copper 80m RJ-45 Transceiver Module SFP-10G-T-100 10GBASE-T SFP+ Copper 100m RJ-45 Transceiver Module Notes: 1. 10G SFP+ transceiver module is individually tested on coresponding equipment such as Cisco, Arista, Juniper, Dell, Brocade and other brands, and passes the monitoring of FS.COM intelligent quality control system.

10G-T Copper Transceiver Module FAQ

25-09-2025 - 10G-T Copper Transceiver Module FAQ Chapter 1. General FAQ 1.1 Does the 10G-T module support auto-negotiation for 1G/2.5G/5G speeds? The FS 10G-T module complies with the IEEE 802.3 standard. The model SFP-10GM-T-30 supports auto-negotiation at 100M/1G/2.5G/5G/10G speeds and is backward compatible with lower-speed ports. However, please note that speed downgrade performance can also depend on the specific mechanisms of the connected device. FS has a large test equipment environment that can generally simulate most scenarios. We strongly recommend that you consult FS Technical Suppor for a definitive answer regarding such speed negotiation issues. 1.2 What is the maximum transmission distance of a 10G-T module? On Cat6a/Cat7 twisted-pair cables, conventional 10G-T modules support 10GBASE-T transmission up to 30 meters. For distances exceeding this, we recommend using optical modules or DAC/AOC cables. FS also offers 10G-T modules with 80/100 meter transmission distances. 1.3 When should I choose a 10G-T module and when an optical module? If the existing network already has twisted-pair cabling (Cat6a/Cat7) and the link distance is less than 30 meters, 10G-T modules offer greater flexibility and lower cabling costs. If the link length exceeds 30 meters, or if higher power consumption/latency requirements are required, optical modules or DAC/AOC are recommended. 1.4 Are 10G-T modules hot-swappable? Yes. FS 10G-T modules comply with the SFP+ MSA standard and support online hot-swapping. Replacing them will not affect the normal operation of other ports. 1.5 What's the difference between the FS 10G-T module and a standard Gigabit electrical port module? The FS Gigabit electrical module (1000BASE-T SFP) supports a maximum rate of 1G only, with low power consumption, making it suitable for Gigabit access. The 10G-T module (e.g., SFP-10GM-T-30 supports multi-rate auto-negotiation from 1G to 10G) is ideal for future network upgrades, though it has relatively higher power consumption. 1.6 How to determine the number of 10G-T modules I should use? Determine the quantity based on your device's available SFP+ port count, existing cabling environment, and future bandwidth requirements. For short-distance connections to servers or storage equipment, 10G-T is recommended. For backbone networks or long-distance links, optical modules or DAC cables are recommended. Chapter 2. Deployment & Compatibility 2.1 Are FS 10G-T modules compatible with switches from brands like Cisco, HPE, and Arista? Yes. FS offers multi-vendor compatible versions that have undergone rigorous compatibility testing. You can verify compatibility for your specific device model using the lookup tool on the FS Compatibility Test. 2.2 If my device model isn't listed on the official website, can I still use the FS 10G-T module? Some devices may not be listed publicly, but FS can provide custom programming services to ensure compatibility with your device. Please Contact Us for more details. 2.3 Does the 10G-T module support standard SFP+ slots? Yes. The FS 10G-T module uses a standard SFP+ form factor and can be directly inserted into any port that complies with the SFP+ MSA standard. 2.4 Can 10G-T modules be used interchangeably with original optical modules or DACs? Yes. 10G-T modules can be used interchangeably with optical modules and DAC/AOC cables within the same switch without affecting normal communication. 2.5 Does migrating a 10G-T module between different devices require reconfiguration? No reconfiguration is required. The module's compatibility logic is stored in EEPROM, allowing for plug-and-play operation when inserted into compatible devices. 2.6 If I encounter compatibility issues, does FS provide technical support? Yes. FS offers 24/7 technical support and compatibility assurance. If your device is unusable due to compatibility issues, we support returns, exchanges, or customized solutions. Please contact FS Technical Suppor when you require any assistance. Chapter 3. Power Consumption 3.1 What is the typical power consumption of the FS 10G-T module? The typical power consumption of FS 10G-T modules generally ranges from 1.5W to 2.5W, with specific values depending on the model and transmission distance. For example, the SFP-10G-T-30-RP consumes approximately 1.5W, while the SFP-10G-T-100 and SFP-10G-T-30 models consume about 1.8W and 2.5W respectively. It is recommended to verify your equipment's power budget before purchase. 3.2 Why do 10G-T modules consume more power than optical modules? 10GBASE-T technology requires complex signal encoding, high-speed electrical-optical-electrical conversion, and the driving of Cat.5e/6 cables within the module. Consequently, its power consumption is higher than that of optical modules which perform direct photoelectric conversion. 3.3 Will high power consumption affect device stability? Generally not. As long as the device has good heat dissipation (fans and smooth airflow), and the module power consumption is within the design range of the switch or server, it will not affect operational stability. 3.4 Will the device overheat if multiple 10G-T modules are installed at full capacity? Generally, if the overall heat dissipation design is appropriate, it won't. However, for devices with high port density, a mixed deployment (partially using optical modules or DACs) is recommended to reduce the overall heat load. 3.5 How can I reduce the power consumption impact of 10G-T modules? Power consumption can be reduced through the following methods: ① Choose the appropriate cabling method, prioritizing DAC/AOC for short distances; ② Control the usage ratio, using 10G-T at key access layers; ③ Ensure that the equipment has good heat dissipation and air duct design. 3.6 Do FS 10G-T modules meet energy efficiency or power saving standards? FS modules comply with the IEEE 802.3az Energy Efficient Ethernet (EEE) standard and automatically reduce power consumption when the link is idle or under low load. Chapter 4. Application & Support 4.1 Is one end of the 10G-T module an optical or electrical port? How do I connect it? One end of the module has a standard SFP+ connector (for plugging into a switch/server), and the other end has an RJ45 electrical port (for connecting to a Cat6a/Cat7 twisted pair cable). 4.2 Can the 10G-T module be used with regular network cables (Cat5e/Cat6)? Yes, but the speed and distance will be limited. Cat6 supports a maximum of approximately 10G/30m, while Cat5e generally only stably supports 1G. Cat6a/Cat7 is recommended. 4.3 How can I confirm that the 10G-T modules are working properly across multiple devices? You can confirm this using the following methods: ① Observe whether the switch port indicator is on; ② Check the link status and speed on the device management interface; ③ Use tools such as iPerf to test network connectivity and bandwidth. 4.4 Can the 10G-T module be used in a PoE (Power over Ethernet) environment? Yes. PoE power is supplied by the switch's RJ45 port. The 10G-T module is only responsible for data transmission and does not affect PoE power supply. 4.5 What should I do if my 10G-T module isn't recognized by my device? You can troubleshoot by following these steps: ① Verify the module model is compatible with the device; ② Test with a different network cable; ③ Insert the module into a different port or device to verify it works properly; ④ Contact FS Technical Support to request a replacement or re-program the compatibility information, if necessary.

SFP-10G-T-30 Test Report (Cisco)

13-08-2025 - For details, please click the attachment icon below to view or download for a good reading experience or resources.

23-04-2025 - 10G SFP+ Cable and Transceiver Modules Data Sheet Product overview The FS® 10GBASE Quad Small Form-Factor Pluggable (SFP+) portfolio offers customers a wide variety of high- density and low-power 10 Gigabit Ethernet connectivity options for data center, high-performance computing networks, enterprise core and distribution layers, and service provider applications. The SFP+-10G modules are our latest generation of 10G transceiver modules solution based on a SFP+ form factor. (See Figure 1) image.png • SFP-10GSR-85 • SFP-10GLR-31 • SFP-10GLRM-31 • SFP-10GER-55 Figure 1. SFP+ 10G Optical modules Features and benefit Industry's smallest 10G form factor for greatest density per chassis Hot-swappable input/output device that plugs into an Ethernet SFP+ port Digital optical monitoring capability for strong diagnostic capabilities Certified and tested on Cisco, Arista, Juniper, Brocade SFP+ 10G ports for superior performance, quality, and reliability. For more details, refer to the FS Assured Program for Transceivers Table 1 describes the SFP+ 10G portfolio. Table 1. SFP+ 10G portfolio Product Description Connector type SFP-10G-T-30 10GBASE-TSFP+Transceiver,RJ-45,30m over Copper Cable RJ-45 SFP-10G-T-80 10GBASE-TSFP+Transceiver,RJ-45,80m over Copper Cable RJ-45 SFP-10G-T-100 10GBASE-TSFP+Transceiver,RJ-45,100m over Copper Cable RJ-45 SFP-10G-T-30I 10GBASE-TSFP+TransceiverRJ-45,30m over Copper Cable,I-Temp RJ-45 SFP-10GSR-85 10GBASE SR SFP+TransceiverLC300m over OM3 MMF Duplex LC SFP-10GSR-85-I 10GBASE SR SFP+Transceiver,LC,300m over OM3 MMF,I-Temp Duplex LC SFP-10GLRM-31 0GBASE LRM SFP+Transceiver,LC,220m over OM3 MMF Duplex LC SFP-10GLRM-31-I 10GBASE LRM SFP+Transceiver,LC,220m over OM3 MMF,I-Temp Duplex LC SFP-10GLRL-31 10GBASE LRM SFP+Transceiver,LC,2km over OS2 SMF Duplex LC SFP-10GLRL-31-I 10GBASE LRLSFP+Transceiver,LC,2km over OS2 SMF,I-Temp Duplex LC SFP-10GMLR-31 10GBASE LR SFP+Transceiver,LC,10km over OS2 SMF,Dual rate Duplex LC SFP-10GLR-31 10GBASE LR SFP+Transceiver,LC,10km over OS2 SMF Duplex LC SFP-10GLR-31-I 10GBASE LR SFP+Transceiver,LC,10km over OS2 SMF,I-Temp Duplex LC SFP-10GER-31 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF Duplex LC SFP-10GER-31-I 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF,I-Temp Duplex LC SFP-10GER-55 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF Duplex LC SFP-10GER-55-I 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF,I-Temp Duplex LC SFP-10GZR-55 10GBASE ZR SFP+Transceiver,LC,80km over OS2 SMF Duplex LC SFP-10GZR-55-I 10GBASE ZR SFP+Transceiver,LC,80km over OS2 SMF,I-Temp Duplex LC SFP-10GZR100-55 10GBASE ZRC SFP+Transceiver,LC,100km over OS2 SMF Duplex LC SFP-10GZR100-55-I 10GBASE ZRC SFP+Transceiver,LC,100km over OS2 SMF,I-Temp Duplex LC SFP-10GZR120-55 10GBASE ZRC SFP+Transceiver,LC,120km over OS2 SMF Duplex LC SFP-10G23-BX10 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1270nm/1330nm Simplex LC SFP-10G32-BX10 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1330nm/1270nm Simplex LC SFP-10G23-BX10-I 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1270nm/1330nm,I-Temp Simplex LC SFP-10G32-BX10-I 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1330nm/1270nm,I-Temp Simplex LC SFP-10G23-BX20 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1270nm/1330nm Simplex LC SFP-10G32-BX20 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1330nm/1270nm Simplex LC SFP-10G23-BX20-I 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1270nm/1330nm,I-Temp Simplex LC SFP-10G32-BX20-I 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1330nm/1270nm,I-Temp Simplex LC SFP-10G23-BX40 10GBASE BX40 SFP+Transceiver,LC,40km over OS2 SMF,1270nm/1330nm Simplex LC SFP-10G32-BX40 10GBASE BX40 SFP+Transceiver,LC,40km over OS2 SMF,1330nm/1270nm Simplex LC SFP-10G23-BX40-I 10GBASE BX40 SFP+Transceiver,LC,40km over OS2 SMF,1270nm/1330nm,I-Temp Simplex LC SFP-10G32-BX40-I 10GBASE BX40 SFP+Transceiver,LC,40km over OS2 SMF,1330nm/1270nm,I-Temp Simplex LC SFP-10G23-BX60 10GBASE BX60 SFP+Transceiver,LC,60km over OS2 SMF,1270nm/1330nm Simplex LC SFP-10G32-BX60 10GBASE BX60 SFP+Transceiver,LC,60km over OS2 SMF,1330nm/1270nm Simplex LC SFP-10G23-BX60-I 10GBASE BX60 SFP+Transceiver,LC,60km over OS2 SMF,1270nm/1330nm,I-Temp Simplex LC SFP-10G32-BX60-I 10GBASE BX60 SFP+Transceiver,LC,60km over OS2 SMF,1330nm/1270nm,I-Temp Simplex LC SFP-10G23-BX80 10GBASE BX80 SFP+Transceiver,LC,60km over OS2 SMF,1270nm/1330nm Simplex LC SFP-10G32-BX80 10GBASE BX80 SFP+Transceiver,LC,60km over OS2 SMF,1330nm/1270nm Simplex LC SFP-10G45-BX80 10GBASE BX80 SFP+Transceiver,LC,80km over OS2 SMF,1490nm/1550nm Simplex LC SFP-10G54-BX80 10GBASE BX80 SFP+Transceiver,LC,80km over OS2 SMF,1550nm/1490nm Simplex LC SFP-10G45-BX80-I 10GBASE BX80 SFP+Transceiver,LC,80km over OS2 SMF,1490nm/1550nm,I-Temp Simplex LC SFP-10G54-BX80-I 10GBASE BX80 SFP+Transceiver,LC,80km over OS2 SMF,1550nm/1490nm,I-Temp Simplex LC SFP-10G45-BX100 10GBASE BX100 SFP+Transceiver,LC,100km over OS2 SMF,1490nm/1550nm Simplex LC SFP-10G54-BX100 10GBASE BX100 SFP+Transceiver,LC,100km over OS2 SMF,1550nm/1490nm Simplex LC CWDM-SFP10G-10SP 10GBASE CWDM SFP+Transceiver,LC,10km over OS2 SMF,1270nm-1330nm Duplex LC CWDM-SFP10G-10M 10GBASE CWDM SFP+Transceiver,LC10km over OS2 SMF,1350nm-1610nm Duplex LC CWxx-10GSFP-10-I 10GBASE CWDM SFP+Transceiver,LC,10km over OS2 SMF,1270nm-1610nm,I-Temp Duplex LC CWDM-SFP10G-20SP 10GBASE CWDM SFP+Transceiver,LC,20km over OS2 SMF,1270nm-1330nm Duplex LC CWDM-SFP10G-20S 10GBASE CWDM SFP+Transceiver,LC,20km over OS2 SMF,1350nm-1450nm Duplex LC CWDM-SFP10G-20L 10GBASE CWDM SFP+Transceiver,LC,20km over OS2 SMF,1470nm-1610nm Duplex LC CWDM-SFP10G-40S 10GBASE CWDM SFP+Transceiver,LC,40km over OS2 SMF,1270nm-1450nm Duplex LC CWDM-SFP10G-40L 10GBASE CWDM SFP+Transceiver,LC,40km over OS2 SMF,1470nm-1610nm Duplex LC CWDM-SFP10G-40-I 10GBASE CWDM SFP+Transceiver,LC,40km over OS2SMF,1270nm-1610nm,I-Temp Duplex LC DWDM-SFP10G-80 10GBASE DWDM SFP+TransceiverLC,80km over OS2 SMF,C17-C61 Duplex LC DWDM-SFP10G-80-I 10GBASE DWDM SFP+Transceiver,LC,80km over OS2 SMF,C17-C61,I-Temp Duplex LC DWxx-10GSFP-100 10GBASE DWDM SFP+TransceiverLC,80km over OS2 SMF,C17-C61 Duplex LC DWDM-SFP10G-C 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2 SMF, Tunable Duplex LC SFP-10G-PCXXXX (0.5M, 1M, 1.5M, 2M, 2.5M, 3M, 4M, 6M, 7M) 10GBASE SFP+ Passive Copper Cable - SFP-10G-ACXXX (1M, 3M, 5M, 7M, 10M) 10GBASE SFP+ Active Copper Cable - SFP-10G-AOxxxx (1M, 2M, 3M, 5M, 7M, 15M, 20M, 25M, 30M, 30M) 100GBASE QSFP28 to 4xSFP25G Passive Copper Splitter Cables - SFP-10G-T-30 The SFP-10G-T-30 transceiver provides 10GBase-T throughput up to 30m over cat6a/cat7 copper cable via RJ- 45 connector. This transceiver is compliant with IEEE 802.3an, IEEE 802.3az, SFF-8431 and SFP+ MSA. Each SFP+ transceiver module is individually tested to be used on a series of switches, routers, servers, network interface card (NICs) etc. SFP-10G-T-80 The SFP-10G-T-80 transceiver provides 10GBase throughput up to 80m over cat6a/cat7 copper cable via RJ-45 connector. This transceiver is compliant with IEEE 802.3an, IEEE 802.3az, SFF-8431 and SFP+ MSA. Each SFP+ transceiver module is individually tested to be used on a series of switches, routers, servers, network interface card (NICs) etc. SFP-10G-T-100 The SFP-10G-T-100 transceiver provides 10GBase-T throughput up to 100m over cat6a/cat7 copper cable. This transceiver is compliant with IEEE 802.3az, SFF-8431, SFF-8432 and SFP+ MSA. Each SFP+ transceiver module is individually tested to be used on a series of switches, routers, servers, network interface card (NICs) etc. SFP-10G-T-30I The SFP-10G-T-30I transceiver provides 10GBase-T throughput up to 30m over cat6a/cat7 copper cable via RJ- 45 connector. This transceiver is compliant with IEEE 802.3an, IEEE 802.3az, SFF-8431 and SFP+ MSA. Each SFP+ transceiver module is individually tested to be used on a series of switches, routers, servers, network interface card ( NICs) etc. Featuring an operating temperature range of -40 °C to 85 °C, this industrial transceiver can work in harsh industrial environments, such as telecommunication, data processing & management, the application of industrial and factory automation, outdoor applications, rail and intelligent transportation systems (ITSs), marine, oil and gas, mining etc. SFP-10GSR-85 The SFP-10GSR-85 transceiver supports up to 400m link lengths over OM4 MMF (300m over OM3 MMF) via an LC duplex connector. This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standards. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. etc. SFP-10GSR-85-I The SFP-10GSR-85-I transceiver supports up to 400m link lengths over OM4 MMF (300m over OM3 MMF) via an LC duplex connector. This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standards. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10GLRM-31-I The SFP-10GLRM-31-I transceiver supports up to 220m over OM3 multi mode fiber ( MMF). This transceiver is compliant with IEEE802.3. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10GLRM-31 The SFP-10GLRM-31 transceiver supports up to 220m over OM3 multi mode fiber ( MMF). This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3aq 10GBASE-LRM. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet and Legacy FDDI multi mode links etc. SFP-10GLRL-31 The SFP-10 GLRL-31 transceiver supports up to 2km over OS2 SM F via an LC duplex connector . This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae 10GBASE-LR. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Fiber Channel, SONET and SDH etc. SFP-10GLRL-31-I The SFP-10GLRL-31-I transceiver supports up to 2km link lengths over duplex LC OS2 singlemode fiber (SMF). This transceiver is compliant with SFP+ MSA, SFF-8431 and SFF-8472 standards. The built-in digital diagnostics monitoring ( DDM) allows access to real-time operating parameters via the I2C interface. It is suitable for 10GBASE Ethernet application and can work in harsh industrial environments, such as telecommunications, outdoor applications and marine, oil and gas, mining. SFP-10GMLR-31 The SFP-10 GMLR-31 transceiver supports up to 10km over OS2 SMF via an LC duplex connector . This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae 10GBASE-LR/ LW, and 10G Fibre Channel 1200-SM-LL-L. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10 G SFP+ transceiver is ideal for data center, 10 G Ethernet and Fibre Channel etc. SFP-10GLR-31 The SFP-10GLR-31 transceiver supports up to 10km link lengths over LC duplex SMF fiber. This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standards. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. This 10G SFP+ transceiver is ideal for data center, enterprise wiring closet, service provider transport application, Radio & Baseband Unit, etc. SFP-10GLR-31-I The SFP-10GLR-31-I transceiver supports up to 10km link lengths over LC duplex SMF fiber. This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standards. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10GER-31 The SFP-10 GER-31 transceiver supports up to 40km over OS2 SM F via an LC duplex connector . This transceiver is compliant with SFF-8431 and SFF-8432. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472 . Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet and Fibre Channel etc. SFP-10GER-31-I The SFP-10GER-31-I transceiver supports up to 40km link lengths over OS2 SMF via an LC duplex connector. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Each SFP+ transceiver module is individually tested to be used on a series of Cisco switches, routers, servers, network interface card ( NICs) etc. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10GER-55 The SFP-10 GER-55 transceiver supports up to 40km over OS2 SM F via an LC duplex connector . This transceiver is compliant with SFF-8431 and SFF-8432. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472 . Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet and Fibre Channel etc. SFP-10GER-55-I The SFP-10GER-55-I transceiver supports up to 40km link lengths over SMF fiber. This transceiver is compliant with SFF-8431, SFF-8432, 10GFC Rev 4.0 and 10GBASE-ER standards. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10GZR-55 The SFP-10 GZR-55 transceiver supports up to 80km over OS2 SM F via an LC duplex connector . This transceiver is compliant with per the RoHS Directive 2011/65/EU. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet and Fiber Channel etc. SFP-10GZR-55-I The SFP-10GZ-55-I transceiver supports up to 80km link lengths over SMF via an LC duplex connector. This transceiver is compliant with IEEE Std 802.3by, SFF-8431, SFF-8432, SFF-8402, SFF-8472, SFF-8024. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. The SFP-10GZR-55-I is for industrial operating temperature range and can work in harsh industrial environments. SFP-10GZR100-55 The SFP-10GZR100-55 transceiver supports up to 100km over OS2 SMF via an LC duplex connector. This transceiver is compliant with per the RoHS Directive 2011/65/EU. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet and Fiber Channel etc. SFP-10GZR100-55-I The SFP-10GZR100-55-I transceiver supports up to 100km link lengths over SMF fiber. This transceiver is compliant with SFP+ MSA and IEEE802.3ae standards. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40°C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10GZR120-55 The SFP-10GZR120-55 transceiver supports up to 120km over OS2 SMF via an LC duplex connector. This transceiver is compliant with SFF-8431. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet and Fibre Channel etc. SFP-10G23-BX10 & SFP-10G32-BX10 The SFP-10G23-BX10 & SFP-10G32-BX10 transceiver supports up to 10km link lengths over OS2 SMF via an LC simplex connector. Digital diagnostics can also be used through t he I2C interface designated by SFF-8472 to allow access to real- time operating parameters. Each BIDI SFP+ transceiver module is individually tested to be used on a series of Cisco switches, routers, servers, network interface cards ( NICs) etc. Featuring low power consumption and high speed, this 10G BIDI SFP+ transceiver is ideal for enterprise wiring closets, service provider transport applications, Radio & Baseband Units, etc. SFP-10G23-BX10-I & SFP-10G32-BX10-I The SFP-10G23-BX10-I & SFP-10G32-BX10-I transceiver supports up to 10km link lengths over OS2 SMF via an LC simplex connector. Digital diagnostics can also be used through t he I2C interface designated by SFF-8472 to allow access to real- time operating parameters. Each BIDI SFP+ transceiver module is individually tested to be used on a series of Cisco switches, routers, servers, network interface cards (NICs) etc.Featuring an operating temperature range of -40°C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10G23-BX20 & SFP-10G32-BX20 The SFP-10G23-BX20 & SFP-10G32-BX20 transceiver supports up to 20km over OS2 SMF via an LC simplex connector. This transceiver is compliant with SFF-8431 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472 . Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet etc. SFP-10G23-BX20-I & SFP-10G32-BX20-I The SFP-10G23-BX20-I & SFP-10G32-BX20-I transceiver supports up to 20km over OS2 SM F via an LC simplex connector. This transceiver is compliant with SFF-8431 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments. SFP-10G23-BX40 & SFP-10G32-BX40 The SFP-10G23-BX40 & SFP-10G32-BX40 transceiver supports up to 40km over OS2 SMF via an LC simplex connector. This transceiver is compliant with SFF-8431 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet etc. SFP-10G23-BX40-I & SFP-10G32-BX40-I The SFP-10G23-BX40-I & SFP-10G32-BX10-I transceiver supports up to 40km link lengths over OS2 SMF via an LC simplex connector. This transceiver is compliant with IEEE 802.3ae, SFP+ MSA, SFF-8472, SFF-8431 and SFF-8432 standards. The built-in digital diagnostics monitoring ( DDM) allows access to real-time operating parameters.The SFP-10G23- BX40-I & SFP-10G32-BX40-I are for industrial operating temperature range and can work in harsh industrial environments. It is suitable for 10G Ethernet, OBSAI, CPRI and Data Center applications. SFP-10G23-BX60 & SFP-10G32-BX60 The SFP-10G23-BX60 & SFP-10G32-BX60 transceiver supports up to 60km over OS2 SMF via an LC simplex connector. This transceiver is compliant with SFF-8431 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet etc. SFP-10G23-BX60-I & SFP-10G32-BX60-I The SFP-10G23-BX60-I & SFP-10G32-BX60-I transceiver supports up to 60km link lengths over SMF via a simplex LC connector. This transceiver is compliant with SFF-8432, SFF-8431, SFF-8472, IEEE 802.3ae, 10GBASE-LR standards. The built-in digital diagnostics monitoring ( DDM) allows access to real-time operating parameters.The SFP-10G23-BX60-I & SFP-10G32-BX60-I are for industrial operating temperature range and can work in harsh industrial environments, such as telecommunication, data processing and management, the application of industrial and factory automation, outdoor applications, rail and intelligent transportation systems (ITSs), marine, oil and gas, mining etc. SFP-10G23-BX80 & SFP-10G32-BX80 The SFP-10G23-BX80 & SFP-10G32-BX80 transceiver supports up to 80km over OS2 SMF via an LC simplex connector. This transceiver is compliant with SFF-8431 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet etc. SFP-10G45-BX80 & SFP-10G54-BX80 The SFP-10G45-BX80 & SFP-10G54-BX80 transceiver supports up to 80km over OS2 SMF via an LC simplex connector . This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center, 10G Ethernet, SONET OC-192/SDH and Fiber Channel etc. SFP-10G45-BX80-I & SFP-10G54-BX80-I The SFP-10G45-BX80-I & SFP-10G54-BX80-I transceiver supports up to 80km over OS2 SMF via an LC simplex connector . This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring an operating temperature range of -40 °C to 85 °C, this industrial fiber optic transceiver can work in harsh industrial environments, such as telecommunication, data processing & management, the application of industrial and factory automation, outdoor applications, rail and intelligent transportation systems (ITSs), marine, oil and gas, mining etc. SFP-10G45-BX100 & SFP-10G54-BX100 The SFP-10G45-BX100 & SFP-10G54-BX100 transceiver supports up to 100km over OS2 SMF via an LC simplex connector. This transceiver is compliant with SFF-8431 and IEEE 802.3ae standard. Digital diagnostics monitoring is available via a 2-wire serial interface, as specified in SFF-8472. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for optical data communications such as 10G Ethernet etc. CWDM-SFP10G-10SP & CWDM-SFP10G-10M The CWDM-SFP10G-10SP&CWDM-SFP10G-10M transceiver supports up to 10km link lengths over single-mode fiber (SMF) via an LC duplex connector. This transceiver is compliant with SFF-8431, SFF-8432 and IEEE 802.3ae standards. Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. Featuring low power consumption, high speed, this 10G SFP+ transceiver is ideal for data center and 10G Ethernet etc. CWxx-10GSFP-10-I Th e CWxx-10GSFP-10-I transceiver supports up to 10km link lengths over single-mode fiber (SMF) . This transceiver is compliant with SFF-8431 and SFF-8432 MSA standards. Digital diagnostics functions are available via a 2-wire serial interface, as specified in S FF-8472, to allow access to real-time operating parameters . With these features, this easy to install, hot swappable transceiver is suitable for fiber communications application up to 10G. CWDM-SFP10G-40-I The CWDM-SFP10G-40-I transceiver supports up to 40km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with S FF-8431 and S FF-8472 MSA standards . Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. With these features, this easy to install, hot swappable transceiver is suitable for 10G Ethernet and 10G SONET/SDH applications. CWDM-SFP10G-80L The CWDM-SFP10G-80L transceiver supports up to 80km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with S FF-8431 and S FF-8432 MSA standards . Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. With these features, this easy to install, hot swappable transceiver is suitable for fiber communications application up to 10G. CWDM-SFP10G-80-I Th e CWDM-SFP10G-80-I transceiver supports up to 80km link lengths over single-mode fiber (SMF) and is suitable for 10G Ethernet and Data Center applications. It is compliant with IEEE 802.3ae, SFP+ MSA, SFF-8472 and SFF-8431 standards. The built-in digital diagnostics monitoring (DDM) allows access to real-time operating parameters.Th e CWDM-SFP10G-80-I is for industrial operating temperature range and can work in harsh industrial environments, such as telecommunication, data processing & management, the application of industrial and factory automation, outdoor applications, rail and intelligent transportation systems (ITSs), marine, oil and gas, mining etc. DWDM-SFP10G-40 The DWDM-SFP10G-40 transceiver supports up to 40km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with S FF-8431 and S FF-8432 MSA standards . Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. With these features, this easy to install, hot swappable transceiver is suitable to be deployed in the DWDM networking equipment in metropolitan access and core networks. DWDM-SFP10G-40-I The DWDM-SFP10G-40-I transceiver supports up to 40km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with S FF-8431 and S FF-8432 MSA standards . Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. The DWDM-SFP10G-40-I is for industrial operating temperature range and can work in harsh industrial environments, such as telecommunication, data processing & management, the application of industrial and factory automation, outdoor applications, rail and intelligent transportation systems (ITSs), marine, oil and gas, mining etc. DWDM-SFP10G-80 The DWDM-SFP10G-80 transceiver supports up to 80km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with S FF-8431 and S FF-8432 MSA standards . Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. With these features, this easy to install, hot swappable transceiver is suitable to be deployed in the DWDM networking equipment in metropolitan access and core networks. DWDM-SFP10G-80-I The DWDM-SFP10G-80-I transceiver supports up to 80km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with S FF-8431 and S FF-8432 MSA standards . Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. The DWDM-SFP10G-80-I is for industrial operating temperature range and can work in harsh industrial environments, such as telecommunication, data processing & management, the application of industrial and factory automation, outdoor applications, rail and intelligent transportation systems (ITSs), marine, oil and gas, mining etc. DWxxx-10GSFP-100 The DWCxx-10GSFP-100 transceiver supports up to 100km link lengths over single-mode fiber (SMF) via an LC duplex connector. This transceiver is compliant with SFF-8472 MSA standards. The built-in digital diagnostics monitoring (DDM) allows access to real-time operating parameters. It is suitable to be deployed in the DWDM networking equipment in metropolitan access and core networks. DWDM-SFP10G-C The DWDM-SFP10G-C transceiver supports up to 80km link lengths over single-mode fiber (SMF) via an LC duplex connector . This transceiver is compliant with SFF-8431, SFF-8432, SFF-8690 and ITU-T G.698.1 standards. Digital diagnostics functions are available via a 2-wire serial interface, as specified in SFF-8472, to allow access to real-time operating parameters. With these features, this easy to install, hot swappable transceiver is suitable to be deployed in the DWDM networking equipment in metropolitan access and core networks. SFP-10G-РСххх & SFP-10G-ACxxx FS SFP+ Copper Twinax ( Figure 2) direct-attach cables are suitable for very short distances and offer a cost- effective way to connect within racks and across adjacent racks. FS offers passive Twinax cables in lengths of 0.5, 1, 1.5, 2, 2.5, 3, 4, 5, 6 and 7 meters, and active Twinax cables in lengths of 1, 3, 5, 7 and 10 meters or can be customized for longer meters. image.png Figure 2. SFP-10G-PCxxx & SFP-10G-ACxxx SFP-10G-AOxxx FS SFP+ Active Optical Cables ( Figure 3) are direct-attach fiber assemblies with SFP+ connectors. They are suitable for very short distances and offer a cost-effective way to connect within rack s and across adjacent racks. FS offers Active Twinax Cables in lengths of 1, 2, 3, 5, 7, 10, 15, 20, 25 and 30 meters or can be customized for longer meters. image.png Figure 3 SFP-10G-AOxxx cables Product Specifications Table 2 shows the key electrical characteristics for the 10G SFP+ module Table 2. Electrical specification Product Description Nominal datarate(Gbs) Link meter SFP-10G-T-30 10GBASE-TSFP+Transceiver,RJ-45,30m over Copper Cable 10.3125Gbps 30m SFP-10G-T-30I 10GBASE-TSFP+Transceiver,RJ-45,30m over Copper Cable,I-Temp 10.3125Gbps 30m SFP-10G-T-80 10GBASE-T SFP+Transceiver,RJ-45,80m over Copper Cable 10.3125Gbps 80m SFP-10G-T-100 10GBASE-T SFP+Transceiver,RJ-45,100m over Copper Cable 10.3125Gbps 100m SFP-10GLRM-31 10GBASE LRM SFP+Transceiver, LC, 220m over OM3 MMF 10.3125Gbps 220m SFP-10GLRM-31-I 10GBASE LRM SFP+Transceiver,LC,220m over OM3 MMF,I-Temp 10.3125Gbps 220m SFP-10GSR-85 10GBASE SR SFP+Transceiver,LC,300m over OM3 MMF 10.3125Gbps 300m SFP-10GSR-85-I 10GBASE SR SFP+Transceiver,LC,300m over OM3 MMF, I-Temp 10.3125Gbps 300m SFP-10GLRL-31 10GBASE LRM SFP+Transceiver,LC2km over OS2 SMF 10.3125Gbps 2km SFP-10GLRL-31-I 10GBASE LRL SFP+Transceiver,LC,2km over OS2 SMF,I-Temp 10.3125Gbps 2km SFP-10GMLR-31 10GBASE LR SFP+Transceiver,LC10km over OS2 SMF,Dual rate Dual rate 10.3125Gbps and 1Gbps 10km SFP-10GLR-31 10GBASE LR SFP+Transceiver,LC10km over OS2 SMF 10.3125Gbps 10km SFP-10GLR-31-I 10GBASE LRSFP+Transceiver,LC10km over OS2 SMF,I-Temp 10.3125Gbps 10km SFP-10GER-31 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF 10.3125Gbps 40km SFP-10GER-31-I 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF,I-Temp 10.3125Gbps 40km SFP-10GER-55 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF 10.3125Gbps 40km SFP-10GER-55-I 10GBASE ER SFP+Transceiver,LC,40km over OS2 SMF,I-Temp 10.3125Gbps 40km SFP-10GZR-55 10GBASE ZR SFP+Transceiver,LC,80km over OS2 SMF 10.3125Gbps 80km SFP-10GZR-55-I 10GBASE ZR SFP+Transceiver,LC,80km over OS2 SMF,I-Temp 10.3125Gbps 80km SFP-10GZR100-55 10GBASE ZRC SFP+Transceiver,LC100km over OS2 SMF 10.3125Gbps 100km SFP-10GZR100-55-I 10GBASE ZRCSFP+Transceiver,LC,100km over O52 SMF,I-Temp 10.3125Gbps 100km SFP-10GZR120-55 10GBASE ZRC SFP+Transceiver,LC,120km over OS2 SMF 10.3125Gbps 120km SFP-10G23-BX10 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1270nm/1330nm 10.3125Gbps 10km SFP-10G32-BX10 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1330nm/1270nm 10.3125Gbps 10km SFP-10G23-BX10-I 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1270nm/1330nm,I-Temp 10.3125Gbps 10km SFP-10G32-BX10-I 10GBASE BXSFP+Transceiver,LC,10km over OS2 SMF,1330nm/1270nm,I-Temp 10.3125Gbps 10km SFP-10G23-BX20 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1270nm/1330nm 10.3125Gbps 20km SFP-10G32-BX20 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1330nm/1270nm 10.3125Gbps 20km SFP-10G23-BX20-I 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1270nm/1330nm,I-Temp 10.3125Gbps 20km SFP-10G32-BX20-I 10GBASE BX20 SFP+Transceiver,LC,20km over OS2 SMF,1330nm/1270nm,I-Temp 10.3125Gbps 20km SFP-10G23-BX40 10GBASE BX40 SFP+ Transceiver, LC, 40km over OS2 SMF, 1270nm/1330nm 10.3125Gbps 40km SFP-10G32-BX40 10GBASE BX40 SFP+ Transceiver, LC, 40km over OS2 SMF, 1330nm/1270nm 10.3125Gbps 40km SFP-10G23-BX40-I 10GBASE BX40 SFP+ Transceiver, LC, 40km over OS2 SMF, 1270nm/1330nm, I-Temp 10.3125Gbps 40km SFP-10G32-BX40-I 10GBASE BX40 SFP+ Transceiver, LC, 40km over OS2 SMF, 1330nm/1270nm, I-Temp 10.3125Gbps 40km SFP-10G23-BX60 10GBASE BX60 SFP+ Transceiver, LC, 60km over OS2 SMF, 1270nm/1330nm 10.3125Gbps 60km SFP-10G32-BX60 10GBASE BX60 SFP+ Transceiver, LC, 60km over OS2 SMF, 1330nm/1270nm 10.3125Gbps 60km SFP-10G23-BX60-I 10GBASE BX60 SFP+ Transceiver, LC, 60km over OS2 SMF, 1270nm/1330nm, I-Temp 10.3125Gbps 60km SFP-10G32-BX60-I 10GBASE BX60 SFP+ Transceiver, LC, 60km over OS2 SMF, 1330nm/1270nm, I-Temp 10.3125Gbps 60km SFP-10G23-BX80 10GBASE BX80 SFP+ Transceiver, LC, 80km over OS2 SMF, 1270nm/1330nm 10.3125Gbps 80km SFP-10G32-BX80 10GBASE BX80 SFP+ Transceiver, LC, 80km over OS2 SMF, 1330nm/1270nm 10.3125Gbps 80km SFP-10G45-BX80 10GBASE BX80 SFP+ Transceiver, LC, 80km over OS2 SMF, 1490nm/1550nm 10.3125Gbps 80km SFP-10G54-BX80 10GBASE BX80 SFP+ Transceiver, LC, 80km over OS2 SMF, 1550nm/1490nm 10.3125Gbps 80km SFP-10G45-BX80-I 10GBASE BX80 SFP+ Transceiver, LC, 80km over OS2 SMF, 1490nm/1550nm, I-Temp 10.3125Gbps 80km SFP-10G54-BX80-I 10GBASE BX80 SFP+ Transceiver, LC, 80km over OS2 SMF, 1550nm/1490nm, I-Temp 10.3125Gbps 80km SFP-10G45-BX100 10GBASE BX100 SFP+ Transceiver, LC, 100km over OS2 SMF, 1490nm/1550nm 10.3125Gbps 100km SFP-10G54-BX100 10GBASE BX100 SFP+ Transceiver, LC, 100km over OS2 SMF, 1550nm/1490nm 10.3125Gbps 100km CWDM-SFP10G-10SP 10GBASE CWDM SFP+ Transceiver, LC, 10km over OS2 SMF, 1270nm-1330nm 10.3125Gbps 10km CWDM-SFP10G-10M 10GBASE CWDM SFP+ Transceiver, LC, 10km over OS2 SMF, 1350nm-1610nm 10.3125Gbps 10km CWxx-10GSFP-10-I 10GBASE CWDM SFP+ Transceiver, LC, 10km over OS2 SMF, 1270nm-1610nm, I-Temp 10.3125Gbps 10km CWDM-SFP10G-20SP 10GBASE CWDM SFP+ Transceiver, LC, 20km over OS2 SMF, 1270nm-1330nm 10.3125Gbps 20km CWDM-SFP10G-20S 10GBASE CWDM SFP+ Transceiver, LC, 20km over OS2 SMF, 1350nm-1450nm 10.3125Gbps 20km CWDM-SFP10G-20L 10GBASE CWDM SFP+ Transceiver, LC, 20km over OS2 SMF, 1470nm-1610nm 10.3125Gbps 20km CWDM-SFP10G-40S 10GBASE CWDM SFP+ Transceiver, LC, 40km over OS2 SMF, 1270nm-1450nm 10.3125Gbps 40km CWDM-SFP10G-40L 10GBASE CWDM SFP+ Transceiver, LC, 40km over OS2 SMF, 1470nm-1610nm 10.3125Gbps 40km CWDM-SFP10G-40-I 10GBASE CWDM SFP+ Transceiver, LC, 40km over OS2 SMF, 1270nm-1610nm, I-Temp 10.3125Gbps 40km CWDM-SFP10G-80L 10GBASE CWDM SFP+ Transceiver, LC, 80km over OS2 SMF, 1470nm-1610nm 10.3125Gbps 80km CWDM-SFP10G-80-I 10GBASE CWDM SFP+ Transceiver, LC, 80km over OS2 SMF, 1470nm-1610nm, I-Temp 10.3125Gbps 80km DWDM-SFP10G-40 10GBASE DWDM SFP+ Transceiver, LC, 40km over OS2 SMF, C17-C61 10.3125Gbps 40km DWDM-SFP10G-40-I 10GBASE DWDM SFP+ Transceiver, LC, 40km over OS2 SMF, C17-C61, I-Temp 10.3125Gbps 40km DWDM-SFP10G-80 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2 SMF, C17-C61 10.3125Gbps 80km DWDM-SFP10G-80-I 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2 SMF, C17-C61, I-Temp 10.3125Gbps 80km DWxxx-10GSFP-100 10GBASE DWDM SFP+ Transceiver, LC, 100km over OS2 SMF, C17-C61 10.3125Gbps 100km DWDM-SFP10G-C 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2 SMF, Tunable 10.3125Gbps 80km SFP-10G-PCXXX (0.5M, 1M, 1.5M, 2M, 2.5M, 3M, 4M, 5M, 6M, 7M) 10GBASE SFP+ Passive Copper Cable 10.3125Gbps 0.5, 1, 1.5, 2, 2.5, 3, 4, 5, 6, 7 SFP-10G-ACxxx (1M, 3M, 5M, 7M, 10M) 10GBASE SFP+ Active Copper Cable 10.3125Gbps 1, 3，5, 7 ,10 SFP-10G-AOxxx (1M, 2M, 3M, 5M, 7M, 10M, 15M, 20M, 25M, 30M, 10GBASE SFP+ Active Copper Cable 10.3125Gbps 1, 2, 3, 5, 7, 10, 15, 20, 25, 30 Table 3 shows the key optical characteristics for the 10G SFP+ modules. Table 3. Optical specifications Product Description Transmit Power (dBm) Receive Power (dBm) Transmit andReceiveWavelength (nm) Minimum Maximum Minimum Maximum SFP-10G-T-30 10GBASE -T SFP+Transceiver, RJ-45, 30m over Copper Cable - - - - - SFP-10G-T-30I 10GBASE -T SFP+Transceiver, RJ-45, 30m over Copper Cable, I-Temp - - - - - SFP-10G-T-80 10GBASE -T SFP+Transceiver, RJ-45, 80m over Copper Cable - - - - - SFP-10G-T-100 10GBASE -T SFP+Transceiver, RJ-45, 100m over Copper Cable - - - - - SFP-10GLRM-31 10GBASE LRM SFP+Transceiver, LC, 220m over OM3 MMF -6.5 0.5 -8.4 1.5 1310 SFP-10GLRM-31-I 10GBASE LRM SFP+Transceiver, LC, 220m over OM3 MMF, I-Temp -8.2 0.5 -14.4 0.5 1310 SFP-10GSR-85 10GBASE SR SFP+Transceiver, LC, 300m over OM3 MMF -7.3 -1 -11.1 0.5 850 SFP-10GSR-85-I 10GBASE SR SFP+Transceiver, LC, 300m over OM3 MMF, I-Temp -8 1 -11.1 0.5 850 SFP-10GLRL-31 10GBASE LRM SFP+Transceiver, LC, 2km over OS2 SMF -8.2 0.5 -12.6 0 1310 SFP-10GLRL-31-I 10GBASE LRL SFP+Transceiver, LC, 2km over OS2SMF, I-Temp -8.2 0.5 -14.4 0.5 1310 SFP-10GMLR-31 10GBASE LR SFP+Transceiver, LC, 10km over OS2SMF, Dual rate -8.2 0.5 -14.4 0.5 1310 SFP-10GLR-31 10GBASE LR SFP+Transceiver, LC, 10km over OS2 SMF -8.2 0.5 -14.4 0.5 1310 SFP-10GLR-31-I 10GBASE LR SFP+Transceiver, LC, 10km over OS2SMF, I-Temp -8.2 0.5 -12.6 0.5 1310 SFP-10GER-31 10GBASE ER SFP+Transceiver, LC, 40km over OS2 SMF 0 5 -15 1 1310 SFP-10GER-31-I 10GBASE ER SFP+Transceiver, LC, 40km over OS2SMF, I-Temp 0 5 -15 1 1310 SFP-10GER-55 10GBASE ER SFP+Transceiver, LC, 40km over OS2 SMF -1 4 -16 -1 1550 SFP-10GER-55-I 10GBASE ER SFP+Transceiver, LC, 40km over OS2SMF, I-Temp -2 4 -16 0 1550 SFP-10GZR-55 10GBASE ZR SFP+Transceiver, LC, 80km over OS2 SMF 0 5 -23 -7 1550 SFP-10GZR-55-I 10GBASE ZR SFP+Transceiver, LC, 80km over OS2SMF, I-Temp 0 5 -23 -8 1550 SFP-10GZR100-55 10GBASE ZRC SFP+Transceiver, LC, 100km over OS2 SMF 0 5 -25 -7 1550 SFP-10GZR100-55-I 10GBASE ZRC SFP+Transceiver, LC, 100km over OS2SMF, I-Temp 1 5 -25 -8 1550 SFP-10GZR120-55 10GBASE ZRC SFP+Transceiver, LC, 120km over OS2 SMF 1 3 6 -8 1550 SFP-10G23-BX10 10GBASE BX SFP+Transceiver, LC, 10km over OS2SMF, 1270nm/1330nm -8.2 0.5 -14.4 0.5 1270 (Tx)1330 (Rx) SFP-10G32-BX10 10GBASE BX SFP+Transceiver, LC, 10km over OS2SMF, 1330nm/1270nm -8.2 0.5 -14.4 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX10-I 10GBASE BX SFP+Transceiver, LC, 10km over OS2SMF, 1270nm/1330nm, I-Temp -8.2 0.5 -14.4 0.5 1270 (Tx)1330 (Rx) SFP-10G32-BX10-I 10GBASE BX SFP+Transceiver, LC, 10km over OS2SMF, 1330nm/1270nm, I-Temp -8.2 0.5 -14.4 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX20 10GBASE BX20 SFP+Transceiver, LC, 20km over OS2SMF, 1270nm/1330nm -6 3 -14.4 0.5 1270 (Tx)1330 (Rx) SFP-10G32-BX20 10GBASE BX20 SFP+Transceiver, LC, 20km over OS2SMF, 1270nm/1330nm -6 3 -14.4 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX20-I 10GBASE BX20 SFP+Transceiver, LC, 20km over OS2SMF, 1270nm/1330nm, I-Temp -6 3 -14.4 0.5 1270 (Tx)1330 (Rx) SFP-10G32-BX20-I 10GBASE BX20 SFP+Transceiver, LC, 20km over OS2SMF, 1330nm/1270nm, I-Temp -6 3 -14.4 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX40 10GBASE BX40 SFP+Transceiver, LC, 40km over OS2SMF, 1270nm/1330nm 1 5 -15 0.5 1270 (Tx/Rx)1330 (Rx/Tx) SFP-10G32-BX40 10GBASE BX40 SFP+Transceiver, LC, 40km over OS2SMF, 1330nm/1270nm 1 5 -15 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX40-I 10GBASE BX40 SFP+Transceiver, LC, 40km over OS2SMF, 1270nm/1330nm, I-Temp 1 5 -15 0.5 1270 (Tx)1330 (Rx) SFP-10G32-BX40-I 10GBASE BX40 SFP+Transceiver, LC, 40km over OS2SMF, 1330nm/1270nm, I-Temp 1 5 -15 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX60 10GBASE BX60 SFP+Transceiver, LC, 60km over OS2SMF, 1270nm/1330nm 1 6 -20 0.5 1270 (Tx/Rx)1330 (Rx/Tx) SFP-10G32-BX60 10GBASE BX60 SFP+Transceiver, LC, 60km over OS2SMF, 1330nm/1270nm 1 6 -20 0.5 1330 (Tx)1270 (Rx) SFP-10G23-BX60-I 10GBASE BX60 SFP+Transceiver, LC, 60km over OS2SMF, 1270nm/1330nm, I-Temp 1 6 -20 0.5 1270 (Tx)1330 (Rx) SFP-10G32-BX60-I 10GBASE BX60 SFP+Transceiver, LC, 60km over OS2SMF, 1330nm/1270nm, I-Temp 1 6 -20 0.5 1330 (Tx)1270 (Rx) SFP-10G45-BX80 10GBASE BX80 SFP+Transceiver, LC, 80km over OS2SMF, 1490nm/1550nm 0 5 -22 -7 1490 (Tx)1550 (Rx) SFP-10G54-BX80 10GBASE BX80 SFP+Transceiver, LC, 80km over OS2SMF, 1550nm/1490nm 0 5 -22 -7 1550 (Tx)1490 (Rx) SFP-10G45-BX80-I 10GBASE BX80 SFP+Transceiver, LC, 80km over OS2SMF, 1490nm/1550nm, I-Temp 0 5 -23 -7 1490 (Tx)1550 (Rx) SFP-10G54-BX80-I 10GBASE BX80 SFP+Transceiver, LC, 80km over OS2SMF, 1550nm/1490nm, I-Temp 0 5 -23 -7 1550 (Tx)1490 (Rx) SFP-10G45-BX100 10GBASE BX100 SFP+Transceiver, LC, 100km over OS2SMF, 1490nm/1550nm 1 5 -22 -7 1490 (Tx)1550 (Rx) SFP-10G54-BX100 10GBASE BX100 SFP+Transceiver, LC, 100km over OS2SMF, 1550nm/1490nm 1 5 -22 -7 1550 (Tx)1490 (Rx) CWDM-SFP10G-10SP 10GBASE CWDM SFP+Transceiver, LC, 10km over OS2SMF, 1270nm-1330nm -8.2 0.5 -14.4 0.5 1270to 1330 CWDM-SFP10G-10M 10GBASE CWDM SFP+Transceiver, LC, 10km over OS2SMF, 1350nm-1610nm -8.2 0.5 -14.4 0.5 1350to 1610 CWxx-10GSFP-10-I 10GBASE CWDM SFP+Transceiver, LC, 10km over OS2SMF, 1270nm-1610nm, I-Temp -2 5 -16 0 1270to 1610 CWDM-SFP10G-20SP 10GBASE CWDM SFP+Transceiver, LC, 20km over OS2SMF, 1270nm-1330nm -6 2 -14.4 0.5 1270to 1330 CWDM-SFP10G-20S 10GBASE CWDM SFP+Transceiver, LC, 20km over OS2SMF, 1350nm-1450nm -6 2 -14.4 0.5 1350to 1450 CWDM-SFP10G-20L 10GBASE CWDM SFP+Transceiver, LC, 20km over OS2SMF, 1470nm-1610nm -1 4 -14.4 0.5 1470to 1610 CWDM-SFP10G-40S 10GBASE CWDM SFP+Transceiver, LC, 40km over OS2SMF, 1270nm-1450nm 0 5 -16 -0.5 1270to 1450 CWDM-SFP10G-40L 10GBASE CWDM SFP+Transceiver, LC, 40km over OS2SMF, 1470nm-1610nm -1 4 -16 -8 1470to 1610 CWDM-SFP10G-40-I 10GBASE CWDM SFP+Transceiver, LC, 40km over OS2SMF, 1270nm-1610nm, I-Temp -1 4 -16 0 1270to 1610 CWDM-SFP10G-80L 10GBASE CWDM SFP+Transceiver, LC, 80km over OS2SMF, 1470nm-1610nm 0 4 -23 -8 1470to 1610 CWDM-SFP10G-80-I 10GBASE CWDM SFP+Transceiver, LC, 80km over OS2SMF, 1470nm-1610nm, I-Temp 0 5 -23 -6 1470to 1610 DWDM-SFP10G-40 10GBASE DWDM SFP+Transceiver, LC, 40km over OS2 SMF, C17-C61 -1 4 -16 0 1563.86to 1528.77 DWDM-SFP10G-40-I 10GBASE DWDM SFP+Transceiver, LC, 40km over OS2SMF, C17-C61, I-Temp -1 4 -16 0 1563.86to 1528.77 DWDM-SFP10G-80 10GBASE DWDM SFP+Transceiver, LC, 80km over OS2 SMF, C17-C61 0 4 -23 -7 1563.86to 1528.77 DWDM-SFP10G-80-I 10GBASE DWDM SFP+Transceiver, LC, 80km over OS2SMF, C17-C61, I-Temp 0 5 -23 -6 1563.86to 1528.77 DWxxx-10GSFP-100 10GBASE DWDM SFP+Transceiver, LC, 100km over OS2 SMF, C17-C61 1 7 -25 -8 1563.86to 1528.77 DWDM-SFP10G-C 10GBASE DWDM SFP+Transceiver, LC, 80km over OS2SMF, Tunable 0 5 -23 -8 1563.86t o 1528.77 Table 4 shows the mechanical characteristics for the 10G SFP+ modules. Table 4. Mechanical specifications Parameter Product Weight Module dimension with pull tab (H x W x D) 8.5 x 13.4 x 56.5 mm Module weight (Max) Optical modules SFP-10G-PC005 105 g SFP-10G-PC01 115 g SFP-10G-PC015 130 g SFP-10G-PC02 145 g SFP-10G-PC025 160 g SFP-10G-PC03 170 g SFP-10G-PC04 295 g SFP-10G-PC05 350 g SFP-10G-PC06 395 g SFP-10G-PC07 435 g SFP-10G-AC01 120 g SFP-10G-AC03 160 g SFP-10G-AC05 280 g SFP-10G-AC07 360 g SFP-10G-AC10 600 g SFP-10G-AO01 200 g SFP-10G-AO02 220 g SFP-10G-AO03 230 g SFP-10G-AO05 230 g SFP-10G-AO07 280 g SFP-10G-AO10 480 g SFP-10G-AO15 720 g SFP-10G-AO20 960 g SFP-10G-AO25 1040 g SFP-10G-AO30 1200 g Warranty Standard warranty: 5 years For more information for FS Returns & Refunds policy, visit Products Warranty or Returns & Refunds Ordering information Table 5 provides the ordering information for SFP+ 10G modules and related cables. Table 5. Ordering information Part number Description SFP+ Optics Modules SFP-10G-T-30 10GBASE -T SFP+ Transceiver, RJ-45, 30m over Copper Cable SFP-10G-T-30I 10GBASE -T SFP+ Transceiver, RJ-45, 30m over Copper Cable, I-Temp SFP-10G-T-80 10GBASE -T SFP+ Transceiver, RJ-45, 80m over Copper Cable SFP-10G-T-100 10GBASE -T SFP+ Transceiver, RJ-45, 100m over Copper Cable SFP-10GLRM-31 10GBASE LRM SFP+ Transceiver, LC, 220m over OM3 MMF SFP-10GLRM-31-I 10GBASE LRM SFP+ Transceiver, LC, 220m over OM3 MMF, I-Temp SFP-10GSR-85 10GBASE SR SFP+ Transceiver, LC, 300m over OM3 MMF SFP-10GSR-85-I 10GBASE SR SFP+ Transceiver, LC, 300m over OM3 MMF, I-Temp SFP-10GLRL-31 10GBASE LRM SFP+ Transceiver, LC, 2km over OS2SMF SFP-10GLRL-31-I 10GBASE LRL SFP+ Transceiver, LC, 2km over OS2SMF, I-Temp SFP-10GMLR-31 10GBASE LR SFP+ Transceiver, LC, 10km over OS2SMF, Dual rate SFP-10GLR-31 10GBASE LR SFP+ Transceiver, LC, 10km over OS2 SMF SFP-10GLR-31-I 10GBASE LR SFP+ Transceiver, LC, 10km over OS2SMF, I-Temp SFP-10GER-31 10GBASE ER SFP+ Transceiver, LC, 40km over OS2 SMF SFP-10GER-31-I 10GBASE ER SFP+ Transceiver, LC, 40km over OS2SMF, I-Temp SFP-10GER-55 10GBASE ER SFP+ Transceiver, LC, 40km over OS2 SMF SFP-10GER-55-I 10GBASE ER SFP+ Transceiver, LC, 40km over OS2SMF, I-Temp SFP-10GZR-55 10GBASE ZR SFP+ Transceiver, LC, 80km over OS2 SMF SFP-10GZR-55-I 10GBASE ZR SFP+ Transceiver, LC, 80km over OS2SMF, I-Temp SFP-10GZR100-55 10GBASE ZRC SFP+ Transceiver, LC, 100km over OS2 SMF SFP-10GZR100-55-I 10GBASE ZRC SFP+ Transceiver, LC, 100km over OS2SMF, I-Temp SFP-10GZR120-55 10GBASE ZRC SFP+ Transceiver, LC, 120km over OS2 SMF SFP-10G23-BX10 10GBASE BX SFP+ Transceiver, LC, 10km over OS2SMF, 1270nm/1330nm SFP-10G32-BX10 10GBASE BX SFP+ Transceiver, LC, 10km over OS2SMF, 1330nm/1270nm SFP-10G23-BX10-I 10GBASE BX SFP+ Transceiver, LC, 10km over OS2SMF, 1270nm/1330nm, I-Temp SFP-10G32-BX10-I 10GBASE BX SFP+ Transceiver, LC, 10km over OS2SMF, 1330nm/1270nm, I-Temp SFP-10G23-BX20 10GBASE BX20SFP+ Transceiver, LC, 20km over OS2SMF, 1270nm/1330nm SFP-10G32-BX20 10GBASE BX20SFP+ Transceiver, LC, 20km over OS2SMF, 1330nm/1270nm SFP-10G23-BX20-I 10GBASE BX20SFP+ Transceiver, LC, 20km over OS2SMF, 1270nm/1330nm, I-Temp SFP-10G32-BX20-I 10GBASE BX20SFP+ Transceiver, LC, 20km over OS2SMF, 1330nm/1270nm, I-Temp SFP-10G23-BX40 10GBASE BX40SFP+ Transceiver, LC, 40km over OS2SMF, 1270nm/1330nm SFP-10G32-BX40 10GBASE BX40SFP+ Transceiver, LC, 40km over OS2SMF, 1330nm/1270nm SFP-10G23-BX40-I 10GBASE BX40SFP+ Transceiver, LC, 40km over OS2SMF, 1270nm/1330nm, I-Temp SFP-10G32-BX40-I 10GBASE BX40SFP+ Transceiver, LC, 40km over OS2SMF, 1330nm/1270nm, I-Temp SFP-10G23-BX60 10GBASE BX60SFP+ Transceiver, LC, 60km over OS2SMF, 1270nm/1330nm SFP-10G32-BX60 10GBASE BX60SFP+ Transceiver, LC, 60km over OS2SMF, 1330nm/1270nm SFP-10G23-BX60-I 10GBASE BX60SFP+ Transceiver, LC, 60km over OS2SMF, 1270nm/1330nm, I-Temp SFP-10G32-BX60-I 10GBASE BX60SFP+ Transceiver, LC, 60km over OS2SMF, 1330nm/1270nm, I-Temp SFP-10G23-BX80 10GBASE BX80SFP+ Transceiver, LC, 80km over OS2SMF, 1270nm/1330nm SFP-10G32-BX80 10GBASE BX80SFP+ Transceiver, LC, 80km over OS2SMF, 1330nm/1270nm SFP-10G45-BX80 10GBASE BX80SFP+ Transceiver, LC, 80km over OS2SMF, 1490nm/1550nm SFP-10G54-BX80 10GBASE BX80SFP+ Transceiver, LC, 80km over OS2SMF, 1550nm/1490nm SFP-10G45-BX80-I 10GBASE BX80SFP+ Transceiver, LC, 80km over OS2SMF, 1490nm/1550nm, I-Temp SFP-10G54-BX80-I 10GBASE BX80SFP+ Transceiver, LC, 80km over OS2SMF, 1550nm/1490nm, I-Temp SFP-10G45-BX100 10GBASE BX100SFP+ Transceiver, LC, 100km over OS2SMF, 1490nm/1550nm SFP-10G54-BX100 10GBASE BX100SFP+ Transceiver, LC, 100km over OS2SMF, 1550nm/1490nm CWDM-SFP10G-10SP 10GBASE CWDM SFP+ Transceiver, LC, 10km over OS2SMF, 1270nm-1330nm CWDM-SFP10G-10M 10GBASE CWDM SFP+ Transceiver, LC, 10km over OS2SMF, 1350nm-1610nm CWxx-10GSFP-10-I 10GBASE CWDM SFP+ Transceiver, LC, 10km over OS2SMF, 1270nm-1610nm, I-Temp CWDM-SFP10G-20SP 10GBASE CWDM SFP+ Transceiver, LC, 20km over OS2SMF, 1270nm-1330nm CWDM-SFP10G-20S 10GBASE CWDM SFP+ Transceiver, LC, 20km over OS2SMF, 1350nm-1450nm CWDM-SFP10G-20L 10GBASE CWDM SFP+ Transceiver, LC, 20km over OS2SMF, 1470nm-1610nm CWDM-SFP10G-40S 10GBASE CWDM SFP+ Transceiver, LC, 40km over OS2SMF, 1270nm-1450nm CWDM-SFP10G-40L 10GBASE CWDM SFP+ Transceiver, LC, 40km over OS2SMF, 1470nm-1610nm CWDM-SFP10G-40-I 10GBASE CWDM SFP+ Transceiver, LC, 40km over OS2SMF, 1270nm-1610nm, I-Temp CWDM-SFP10G-80L 10GBASE CWDM SFP+ Transceiver, LC, 80km over OS2 SMF, 1470nm-1610nm CWDM-SFP10G-80-I 10GBASE CWDM SFP+ Transceiver, LC, 80km over OS2SMF, 1470nm-1610nm, I-Temp DWDM-SFP10G-40 10GBASE DWDM SFP+ Transceiver, LC, 40km over OS2SMF, C17-C61 DWDM-SFP10G-40-I 10GBASE DWDM SFP+ Transceiver, LC, 40km over OS2SMF, C17-C61, I-Temp DWDM-SFP10G-80 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2SMF, C17-C61 DWDM-SFP10G-80-I 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2SMF, C17-C61, I-Temp DWxxx-10GSFP-100 10GBASE DWDM SFP+ Transceiver, LC, 100km over OS2SMF, C17-C61 DWDM-SFP10G-C 10GBASE DWDM SFP+ Transceiver, LC, 80km over OS2SMF, Tunable SFP-10G-PC005 10GBASE SFP+ Passive Copper Cable, 0.5-meter SFP-10G-PC01 10GBASE SFP+ Passive Copper Cable, 1-meter SFP-10G-PC015 10GBASE SFP+ Passive Copper Cable, 1.5-meter SFP-10G-PC02 10GBASE SFP+ Passive Copper Cable, 2-meter SFP-10G-PC025 10GBASE SFP+ Passive Copper Cable, 2.5-meter SFP-10G-PC03 10GBASE SFP+ Passive Copper Cable, 3-meter SFP-10G-PC04 10GBASE SFP+ Passive Copper Cable, 4-meter SFP-10G-PC05 10GBASE SFP+ Passive Copper Cable, 5-meter SFP-10G-PC06 10GBASE SFP+ Passive Copper Cable, 6-meter SFP-10G-PC07 10GBASE SFP+ Passive Copper Cable, 7-meter SFP-10G-AC01 10GBASE SFP+ Active Copper Cable, 1-meter SFP-10G-AC03 10GBASE SFP+ Active Copper Cable, 3-meter SFP-10G-AC05 10GBASE SFP+ Active Copper Cable, 5-meter SFP-10G-AC07 10GBASE SFP+ Active Copper Cable, 7-meter SFP-10G-AC10 10GBASE SFP+ Active Copper Cable, 10-meter SFP+ Optics Cables SFP-10G-AO01 10GBASE SFP+ Active Optical Cable, 1-meter SFP-10G-AO02 10GBASE SFP+ Active Optical Cable, 2-meter SFP-10G-AO03 10GBASE SFP+ Active Optical Cable, 3-meter SFP-10G-AO05 10GBASE SFP+ Active Optical Cable, 5-meter SFP-10G-AO07 10GBASE SFP+ Active Optical Cable, 7-meter SFP-10G-AO10 10GBASE SFP+ Active Optical Cable, 10-meter SFP-10G-AO15 10GBASE SFP+ Active Optical Cable, 15-meter SFP-10G-AO20 10GBASE SFP+ Active Optical Cable, 20-meter SFP-10G-AO25 10GBASE SFP+ Active Optical Cable, 25-meter SFP-10G-AO30 10GBASE SFP+ Active Optical Cable, 30-meter Regulatory and standards compliance Standards • GR-20-CORE: Generic Requirements for Optical Fiber and Optical Fiber Cable • GR-326-CORE: Generic Requirements for Single-Mode Optical Connectors and Jumper Assemblies • GR-1435-CORE: Generic Requirements for Multifiber Optical Connectors • IEEE 802.3: 10-Gigabit Ethernet • ITU-T G.709: Interfaces for the Optical Transport Network • ITU-T G.975: GFEC • ITU-T G.975.1: EFEC • SFP+ MSA SFF-8431 (Optical Modules, Active Optical Cables, and Passive Twinax cables) • SFP+ MSA SFF-8461 (Active Twinax cables) Safety • Laser Class 1 21CFR-1040 LN#50 7/2001 • Laser Class 1 IEC60825-1 • Cable jacket of SFP+ copper modules is UL #E116441 Compliant • All length SFP+ copper cables are ELV and RoHS Compliant Table 6. Laser class for the SFP+ 10G optical modules Product Laser class SFP-10GSR-85 1 SFP-10GSR-85-I 1 SFP-10GLRM-31 1 SFP-10GLRM-31-I 1 SFP-10GLRM-31 1 SFP-10GLRL-31-I 1 SFP-10GLR-31 1 SFP-10GLR-31(Dual rate) 1 SFP-10GLR-31-I 1 SFP-10GER-31 1 SFP-10GER-31-I 1 SFP-10GER-55 1 SFP-10GER-55-I 1 SFP-10GZR-55 1 SFP-10GZR-55-I 1 SFP-10GZR100-55 1 SFP-10GZR100-55-I 1 SFP-10GZR120-55 1 SFP-10G23-BX10 1 SFP-10G32-BX10 1 SFP-10G23-BX10-I 1 SFP-10G32-BX10-I 1 SFP-10G23-BX20 1 SFP-10G32-BX20 1 SFP-10G23-BX20-I 1 SFP-10G32-BX20-I 1 SFP-10G23-BX40 1 SFP-10G32-BX40 1 SFP-10G23-BX40-I 1 SFP-10G32-BX40-I 1 SFP-10G23-BX60 1 SFP-10G32-BX60 1 SFP-10G23-BX60-I 1 SFP-10G32-BX60-I 1 SFP-10G23-BX80 1 SFP-10G32-BX80 1 SFP-10G45-BX80 1 SFP-10G54-BX80 1 SFP-10G45-BX80-I 1 SFP-10G54-BX80-I 1 SFP-10G45-BX100 1 SFP-10G54-BX100 1 CWDM-SFP10G-10SP 1 CWDM-SEP10G-10M 1 CWXX-10GSFP-10-I 1 CWDM-SFP10G-20SP 1 CWDM-SFP10G-20S 1 CWDM-SFP10G-20L 1 CWDM-SFP10G-40S 1 CWDM-SFP10G-40L 1 CWDM-SFP10G-40-I 1 CWDM-SFP10G-80L 1 CWDM-SFP10G-80L-I 1 DWDM-SFP10G-40 1 DWDM-SFP10G-40-I 1 DWDM-SFP10G-80 1 DWDM-SFP10G-80-I 1 DWXXX-10GSFP-100 1 DWDM-SFP10G-C 1 SFP-10G-AOxxx 1 Additional information For more information about 10GBASE SFP+ optics and copper modules, contact your account manager or visit 10G Modules Document history New or revised topic Described in Date 10GBASE SFP+ Modules Data Sheet Add CWxx-10GSFP-10-I module 19/12/2022 10GBASE SFP+ Modules Data Sheet Add document 13/12/2022

08-04-2025 - FS 10G Optics-to-Optics Interoperability Matrix Interoperability FS transceivers and cables are based on industry standards and/or Multi-Source Agreements (MSA) and therefore interoperable with the relevant standards and MSA transceivers. Guidance on the interoperability of the FS 10G transceivers is detailed in Table 1. Table 1 shows the interoperability of 10G modules. Table 1. 10G Transceiver Interoperation and Link Reach Transceiver Interoperability Transceiver Product ID Transceiver/Standard Notes Interop Reach (up to) Breakout Patchcord Required SFP-10GMELR-31-I SFP-10GMELR-31-I - No FEC:20km - SFP-10GER-31 SFP-10GER-31 - No FEC:40km - SFP-10GER-55-I SFP-10GER-55-I - No FEC:40km - SFP-10GLR-31 SFP-10GLR-31 - No FEC:10km - QSFP-PLR4-40G Breakout SMF patchcord:MTP/MPO-12 to 4X LC Duplex. For cabling guides,see https://www.fs.com/products/68048.html No FEC:10km Y QSFP-PIR4-40G Breakout SMF patchcord:MTP/MPO-12 to 4X LC Duplex. For cabling guides,see https://www.fs.com/products/68048.html No FEC:2km Y SFP-10GLRL-31-I SFP-10GLRL-31-I - No FEC:2km - SFP-10GLRM-31 SFP-10GLRM-31 - No FEC:220m - SFP-10GSR-85 SFP-10GSR-85 - No FEC:300m - SFP-10GSR-85-I - No FEC:300m - QSFP-SR4-40G Breakout MMF patchcord:MTP/MPO-12 to 4X LC Duplex. For cabling guides,see https://www.fs.com/products/68047.html No FEC:150m Y SFP-10GSR-85-I SFP-10GSR-85-I - No FEC:300m - SFP-10GSR-85 - No FEC:300m - SFP-10GZR-55 SFP-10GZR-55-I - No FEC:80km - SFP-10GZR-55 - No FEC:80km - SFP-10GZR-55-1 SFP-10GZR-55 - No FEC:80km - SFP-10GZR-55-I - No FEC:80km - SFP-10GZR100-55 SFP-10GZR100-55 - No FEC:100km - SFP-10GZR100-55 - No FEC:100km - SFP-10GZR100-55-I SFP-10GZR100-55 - No FEC:100km - SFP-10GZR100-55 - No FEC:100km - SFP-10G-BX SFP-10G-BX - No FEC:10km - SFP-10G-BX-I - No FEC:10km - SFP-10G-BX-I SFP-10G-BX-I - No FEC:10km - SFP-10G-BX - No FEC:10km - SFP-10G-BX40 SFP-10G-BX40 - No FEC:40km - SFP-10G-BX40-I - No FEC:40km - SFP-10G-BX40-I SFP-10G-BX40 - No FEC:40km - SFP-10G-BX40-I - No FEC:40km - SFP-10G-BX60 SFP-10G-BX60 - No FEC:60km - SFP-10G-BX60-I - No FEC:60km - SFP-10G-BX60-I SFP-10G-BX60-I - No FEC:60km - SFP-10G-BX60 - No FEC:60km - SFP-10G-BX80 SFP-10G-BX80 - No FEC:80km - SFP-10G-BX100 SFP-10G-BX100 - No FEC:100km - CWDM-SFP10G-10M CWDM-SFP10G-10M - No FEC:10km - CWDM-SFP10G-10SP CWDM-SFP10G-10SP - No FEC:10km - CWDM-SFP10G-20SP CWDM-SFP10G-20L - No FEC:20km - CWDM-SFP10G-40-I CWDM-SFP10G-20S - No FEC:20km - CWDM-SFP10G-40L CWDM-SFP10G-20SP - No FEC:20km - CWDM-SFP10G-40S CWDM-SFP10G-40-I - No FEC:40km - CWDM-SFP10G-80-I CWDM-SFP10G-40L - No FEC:40km - CWDM-SFP10G-80L CWDM-SFP10G-40S - No FEC:40km - DWDM-SFP10G-40 CWDM-SFP10G-80-l - No FEC:80km - DWDM-SFP10G-40-I CWDM-SFP10G-80L - No FEC:80km - DWDM-SFP10G-80 DWDM-SFP10G-40 - No FEC:40km - DWDM-SFP10G-80-I DWDM-SFP10G-40-I - No FEC:40km - DWDM-SFP10G-C DWDM-SFP10G-80 - No FEC:80km - DWDM-SFP10G-80-I DWDM-SFP10G-80-I - No FEC:80km - DWDM-SFP10G-C DWDM-SFP10G-C - No FEC:80km - CWDM-XFP10G-10SP CWDM-XFP10G-10SP - No FEC:10km - CWDM-XFP10G-20S CWDM-XFP10G-20S - No FEC:20km - CWDM-XFP10G-20SP CWDM-XFP10G-20SP - No FEC:20km - CWDM-XFP10G-40M CWDM-XFP10G-40M - No FEC:40km - CWDM-XFP10G-40SP CWDM-XFP10G-40SP - No FEC:40km - CWDM-XFP10G-80L CWDM-XFP10G-80L - No FEC:80km - DWDM-XFP10G-100 DWDM-XFP10G-100 - No FEC:100km - DWDM-XFP10G-40 DWDM-XFP10G-40 - No FEC:40km - DWDM-XFP10G-80 DWDM-XFP10G-80 - No FEC:80km - DWDM-XFP10G-100 DWDM-XFP10G-C - No FEC:80km - DWDM-XFP10G-40 DWDM-XFP10GH-40 - No FEC:40km - DWDM-XFP10G-80 DWDM-XFP10GH-80 - No FEC:80km - X2-10GER-55 X2-10GER-55 - No FEC:40km - X2-10GLR-31 X2-10GLR-31 - No FEC:10km - X2-10GSR-31 X2-10GSR-31 - No FEC:220m - X2-10GSR-85 X2-10GSR-85 - No FEC:300m - X2-10GZR-55 X2-10GZR-55 - No FEC:80km - XFP-10G-BX XFP-10G-BX - No FEC:10km - XFP-10G-BX40 XFP-10G-BX40 - No FEC:40km - XFP-10G-BX60 XFP-10G-BX60 - No FEC:60km - XFP-10G-BX80 XFP-10G-BX80 - No FEC:80km - XFP-10GER-55 XFP-10GER-55 - No FEC:40km - XFP-10GLR-31 XFP-10GLR-31 - No FEC:10km - XFP-10GLRM-31 XFP-10GLRM-31 - No FEC:2km - XFP-10GSR-85 XFP-10GSR-85 - No FEC:300m - XFP-10GZR-55 XFP-10GZR-55 - No FEC:80km - XFP-10GZRC-55 XFP-10GZRC-55 - No FEC:100km - XPK-10GER-55 XPK-10GER-55 - No FEC:40km - XPK-10GLR-31 XPK-10GLR-31 - No FEC:10km - XPK-10GSR-85 XPK-10GSR-85 - No FEC:300m - XPK-10GZR-55 XPK-10GZR-55 - No FEC:80km - SFP-10GZR120-55 SFP-10GZR120-55 - No FEC: 120km -