Huawei OSX001002 (S4017483) Compatible 10GBASE-LR SFP+ Transceiver

Huawei
SFP+
10G
Duplex
10 km
Huawei OSX001002 (S4017483) compatible SFP+ module - Price & Datasheet

Huawei compatible OSX001002 - Key Features

  • Compatibility: Huawei
  • Media Type: Single-Mode Fiber (SMF)
  • Fiber Count: Duplex
  • Connector: Double LC/UPC
  • Maximum Distance: 10 km
  • Average Link Budget: 6 dB
  • Tx Wavelength: 1310 nm
  • Supported Data Rate: 1.25 Gbps - 11.32 Gbps
  • DDM/DOM: Supported
  • Temperature Range: Standard 0°-70°C

Huawei OSX001002 Price

Lead timeIn Stock - Ships Next Business Day
Standard recommended retail price ex VAT:
12.16
Choice of 0+
Telecoms & Integrators Globally

Huawei compatible OSX001002 Specifications

Form Factor
SFP+
Media Type
Single-Mode Fiber (SMF)
Fiber Count
Duplex
Connector
Double LC/UPC
Maximum Distance
10 km
Average Link Budget
6 dB
TX Wavelength
1310 nm
RX Wavelength
1310 nm
Supported Data Rate
1.25 Gbps - 11.32 Gbps
Supported Ethernet Applications
10G Ethernet (10.31Gbps), Gigabit Ethernet (1.25 Gbps)
Supported Fiber Channel Applications
10G Fiber Channel (10.52 Gbps), 1G Fiber Channel (1.0625 Gbps), 2G Fiber Channel (2.125 Gbps), 4G Fiber Channel (4.25 Gbps), 8G Fiber Channel (8.5 Gbps)
SDH/SONET Standards
STM-64 (9.95Gbps)
DDM/DOM
Supported
Tx Wavelength Bandwidth
100 nm (1260-1360 nm)
Rx Wavelength Bandwidth
100 nm (1260-1360 nm)
Minimum Transmitting Power
-8.2 dBm
Maximum Transmitting Power
0.5 dBm
Receiver Sensitivity
-14.5 dBm
Receiver Overload
0 dBm
Dispersion
70-100 ps/nm
Transmitter Type
DFB Laser
Receiver Type
PIN photodiode
Temperature Range
Standard 0°-70°C
Power
+3.3V single power supply
Compliance
CE,Class 1 FDA and IEC60825-1 Laser Safety Compliant,RoHS,SFF-8431,SFP MSA

Huawei compatible OSX001002 Datasheet

v4

Complete technical specifications and product details

Updated:Jan 16, 2026Format:PDF

Huawei compatible OSX001002 Description

EdgeOptic's OSX001002 compatible is a Huawei-coded version of the EdgeOptic 10G-SFP-10 multi-vendor 10GBASE-LR transceiver. OSX001002 is the Huawei ordering code for a 10GBASE-LR SFP+ optic per IEEE 802.3ae Clause 52, transmitting at 1310 nm over duplex single-mode fiber with double LC/UPC connectors and reaching up to 10 km. The same module appears as S4017483 in Huawei ordering systems; verify the code listed against your platform bill of materials.

Optical specifications: 1310 nm DFB laser with a PIN photodiode receiver, operating wavelength range 1260 to 1360 nm, 6 dB link budget. Transmit power runs from −8.2 dBm minimum to 0.5 dBm maximum. Receiver sensitivity is −14.5 dBm with a receiver overload of 0 dBm. The line rate is 10.3125 Gbps with 64B/66B encoding. The module runs from a 3.3 V host supply across the 0 to 70 °C commercial temperature range and is hot-pluggable in standard SFP+ port slots.

Works on Huawei enterprise switches and routers with SFP+ ports. Confirm support for your specific platform against the Huawei hardware description documentation. The EEPROM is coded for Huawei platform recognition. Digital diagnostics monitoring per SFF-8472 reports transmit and receive optical power, temperature, supply voltage, and laser bias current; the VRP transceiver display commands show these readings per port, with exact syntax in your Huawei platform documentation. The module requires 9/125 µm single-mode fiber, OS1 or OS2; multimode fiber is not compatible.

Backed by 15+ years of EdgeOptic compatibility engineering across vendor optical platforms. CE and RoHS certified, Class 1 laser safety per IEC 60825-1. Part of the EdgeOptic 10G-SFP-10 product family. Ships next business day from EU stock with a lifetime warranty. For volume pricing or Huawei platform questions, contact our sales team.

Frequently Asked Questions

What is the difference between the OSX001002 and OSX010000?

Both OSX001002 and OSX010000 are Huawei 10GBASE-LR SFP+ transceivers. Huawei assigns each to different product lines and ordering catalogs. Verify which part number is listed for your specific platform in the Huawei hardware description document before ordering, since the code your BOM expects is the one your platform will recognize.