BI-DIRECTIONAL OPTICAL COMMUNICATION MODULES AND CABLES

Organization Name

nvidia corporation

Inventor(s)

Ashkan Seyedi of Atlanta GA (US)

BI-DIRECTIONAL OPTICAL COMMUNICATION MODULES AND CABLES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240214072 titled 'BI-DIRECTIONAL OPTICAL COMMUNICATION MODULES AND CABLES

Simplified Explanation: The patent application describes apparatuses and systems for bi-directional optical communication, including modules with optical transmitters and receivers connected by band-pass filters on a substrate.

• Band-pass filters, optical transmitters, and optical receivers are integrated on a substrate for efficient optical signal transmission.
• The optical transmitter generates signals at a specific wavelength, while the optical receiver receives signals at a different wavelength.
• The band-pass filter selectively allows signals of the transmitter's wavelength to pass through to the optical communication medium and directs signals of the receiver's wavelength to the receiver.

Key Features and Innovation:

• Integration of optical transmitters, receivers, and band-pass filters on a single substrate.
• Bi-directional optical communication for efficient data transmission.
• Selective filtering of wavelengths for optimized signal transmission.

Potential Applications: The technology can be used in telecommunications, data centers, fiber optic networks, and high-speed internet connections.

Problems Solved:

• Efficient bi-directional optical communication.
• Reduction of signal interference.
• Improved data transmission speeds.

Benefits:

• Enhanced data transmission efficiency.
• Reduced signal loss.
• Increased network performance.

Commercial Applications: The technology can be applied in telecommunications infrastructure, data centers, and high-speed internet services, improving data transmission speeds and network reliability.

Prior Art: Readers can explore prior patents related to optical communication systems, band-pass filters, and integrated optical modules for further research.

Frequently Updated Research: Stay updated on advancements in optical communication technology, band-pass filter design, and integrated optical systems for potential improvements in data transmission efficiency.

Questions about Optical Communication Technology: 1. How does the integration of optical transmitters, receivers, and band-pass filters improve data transmission efficiency? 2. What are the potential commercial applications of bi-directional optical communication systems in the telecommunications industry?

Original Abstract Submitted

apparatuses, devices, modules, cables, and systems are provided for bi-directional optical communication. an example module includes a substrate, a first band pass filter, a first optical transmitter, and a first optical receiver each supported by the substrate. the first optical transmitter is communicably coupled with the first band pass filter and configured to generate optical signals having a first wavelength. the first optical receiver is communicably coupled with the first band pass filter and configured to receive optical signals having a second wavelength. the first band pass filter passes optical signals received from the first optical transmitter having the first wavelength into an optical communication medium and directs optical signals received from the optical communication medium having the second wavelength into the first optical receiver.