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OSFP-800G LR8/2xLR4 1310nm 10km PAM4 Dual Duplex LC SMF Optical Transceiver Module

OSFP-800G-LR8-SM

$1,980.00

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  • Maximum power consumption: 16W.
  • Supports 2 x 400GBASE-LR4 Ethernet (PAM4).
  • Built-in 7nm DSP, silicon photonics chips.
  • 8×106.25Gbps (53.125GBd PAM4) electrical interface.
  • 8×106.25Gbps (53.125GBd PAM4) optics architecture.
  • 800Gbps data transmission over 10km on G.652 SMF with KP-FEC.
  • Dual duplex LC receptacles and 3.3V power supply.
  • Built-in digital diagnostics for real-time monitoring.
  • RoHS-compliant and IEEE 802.3 compliant.
  • Ideal for HPCs, data centers, and high-bandwidth interconnects.

800G OSFP LR8 optical module is made for 800G gigabit ethernet long reach transmission, which is ideal for data center interconnect (DCI), AI machine learning, and enterprise core networks.

MSA Compatible 800G OSFP LR8 Optical Transceiver Module Support 2x 400G LR4 (SMF 1310nm, 10km, PAM4, Dual Duplex LC )

The 800G OSFP LR8 optical transceiver module is intended for optical communication applications with a range of 10 kilometers. It is fully compliant with the OSFP MSA and the IEEE 802.3 standard. The optical module has dual duplex LC receptacles for connectivity and a maximum power consumption of less than 16W. The technology utilizes SiPh chips that incorporate various active and passive optoelectronic components, 3D packaging technologies, and 7nm DSP chips. The 800G transceiver module can withstand extreme exterior operating conditions, such as temperature, humidity, and EMI interference. The module provides extensive functionality and integration of features, which can be accessed using a two-wire serial interface. The module supports 2x 400G LR4 and is ideal for cloud service providers, content delivery networks (CDNs), and 5G data centers.

Specification

Form FactorOSFPVendor NameAsterfusion
MediaSMFMax. Cable Distance10km
ConnectorDual Duplex LCDDM/DOMSupported
Wavelengths Range1310nmPower Consumption<16w
Data Rate8x106.25GbpsHumidity(non-condensing)5-95%
Bit Error Rate
2.4E-4Supply Voltage3.3V
Data Rate Per Lane106.25GbpsElectrical Interface Hot pluggable
Operating Case Temperature0 to 70°C (32 to 158°F)Application2x400G LR4; AI networks
Part NumberOSFP-800G-LR8-SMProtocolsOSFP MSA and CMIS compliant; IEEE 802.3

Connectivity solution

Related Products

OSFP-800G-SR8-MMOSFP-800G-DR8-SMOSFP-800G-FR8-SMOSFP-800G-LR8-SM
ConnectorDual MPO-12Dual MPO-12Dual Duplex LCDual Duplex LC
Modulation8x106.25Gbps PAM48x106.25Gbps PAM48x106.25Gbps PAM48x106.25Gbps PAM4
Wavelengths Range850nm1310nm1310nm1310nm
Max. Cable Distance100m500m2km10km
Chip Type7nm DSP chip7nm DSP chip7nm DSP chip7nm DSP chip
Operating Case Temperature0 to 70°C (32 to 158°F)0 to 70°C (32 to 158°F)0 to 70°C (32 to 158°F)0 to 70°C (32 to 158°F)
Power Consumption<13.5w<16w<16W<16W
ApplicationEthernet
Telecom
Data Center
800G to 2x400G Breakout
800G to 8x100G Breakout
Ethernet
Telecom
Data Center
800G to 2x400G Breakout
800G to 8x100G Breakout
Ethernet
Telecom
Data Center
800G to 2x400G Breakout
800G to 8x100G Breakout
Ethernet
Telecom
Data Center
800G to 2x400G Breakout
800G to 8x100G Breakout

Questions & Answers

What are the 800G optical transceivers for my ethernet switch?
800G modules come in options for both shorter distances (around 500 meters) and longer distances (up to a few kilometers). 800G modules typically work with single-mode fiber, the preferred choice for long-distance data transmission. The 800G-LR8 optical transceiver provides long distance data transmission up to 10km.

What is the OSFP-800G-LR8 optical transceiver module bandwidth?
The 800G LR8 optical transceiver has eight lanes, and the data rate per lane is 106.25 Gbps. The modules adopt Pulse Amplitude Modulation with 4 levels (PAM4) that handle massive data volume transmission at high speeds.

Optical transceiver silicon photonics means what?
Silicon photonics supports a new approach to building optical modules. Silicon photonics integrates the essential optical components onto silicon chips, similar to how electronic circuits are built. By well-established and cost-effective silicon chip manufacturing processes, silicon photonics enables the production of more affordable optical transceivers. Silicon photonics allow for closer integration of optical components with electronic circuitry on the same chip. This improves overall performance and reduces signal loss with the transceiver.

How do 800G transceivers help AI?
800G optical transceivers manage huge datasets for AI training and real-time data analysis at 800 Gbps. Fast data transport speeds accelerate AI training, enabling faster model creation and deployment. 800G technology smooths data flow for real-time AI applications like fraud detection and autonomous car decision-making. These transceivers enable next-generation AI applications like deep learning, natural language processing, and computer vision, which require massive data sets.