BYPASS WAVGUIDE CONFIGURED TO FACILITATE INTER-LEVEL OPTICAL COUPLING IN OPTICAL MODULE

Organization Name

taiwan semiconductor manufacturing co., ltd.

Inventor(s)

Chan-Hong Chern of Palo Alto CA (US)

BYPASS WAVGUIDE CONFIGURED TO FACILITATE INTER-LEVEL OPTICAL COUPLING IN OPTICAL MODULE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240329297 titled 'BYPASS WAVGUIDE CONFIGURED TO FACILITATE INTER-LEVEL OPTICAL COUPLING IN OPTICAL MODULE

Simplified Explanation: The patent application describes an optical module with a first waveguide and a bypass waveguide, each extending in different directions. The module includes dielectric layers and coupler structures for efficient light transmission.

• The optical module includes a first waveguide and a bypass waveguide.
• The first waveguide extends laterally in one direction, while the bypass waveguide extends in a different direction.
• Dielectric layers and coupler structures are used to enhance light transmission efficiency.
• The bypass waveguide overlays the first waveguide and includes its own coupler structure.
• The module is designed to optimize the transmission of light signals in different directions.

Key Features and Innovation:

• Integration of a first waveguide and a bypass waveguide in an optical module.
• Dielectric layers and coupler structures for efficient light transmission.
• Different lateral directions of the waveguides for optimized signal routing.

Potential Applications: The technology can be applied in telecommunications, data transmission, and optical networking systems.

Problems Solved: Efficient routing and transmission of light signals in different directions within an optical module.

Benefits: Improved signal transmission efficiency, reduced signal loss, and enhanced performance in optical communication systems.

Commercial Applications: Potential commercial applications include telecommunications equipment, data centers, and optical networking infrastructure.

Prior Art: Readers can explore prior patents related to optical waveguides, dielectric layers, and coupler structures in optical communication systems.

Frequently Updated Research: Stay informed about the latest advancements in optical waveguide technology, dielectric materials, and coupler design for optical modules.

Questions about Optical Modules: 1. What are the key components of an optical module? 2. How does the integration of waveguides improve signal transmission efficiency?

Original Abstract Submitted

various embodiments of the present disclosure are directed towards an optical module including a first waveguide and a bypass waveguide. the first waveguide laterally extends in a first direction. the first waveguide comprises a first waveguide body segment and a first waveguide coupler structure. a transverse waveguide laterally extends in a second direction different from the first direction. a first dielectric layer is disposed over the first waveguide and the transverse waveguide. a bypass waveguide overlies the first dielectric layer and laterally extends in the first direction. the bypass waveguide comprises a bypass body segment and a first bypass coupler structure. at least a portion of the first bypass coupler structure overlies the first waveguide coupler structure. the bypass body segment overlies at least a portion of the transverse waveguide.