HIGH DENSITY OPTICAL SPLITTER WITH INTERNAL FANOUT DEVICE

Organization Name

CORNING RESEARCH & DEVELOPMENT CORPORATION

Inventor(s)

Alan Duncan Burkett of Bedford TX (US)

William Julius McPhil Giraud of Azle TX (US)

Lingling Hu of Fort Worth TX (US)

HIGH DENSITY OPTICAL SPLITTER WITH INTERNAL FANOUT DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240019655 titled 'HIGH DENSITY OPTICAL SPLITTER WITH INTERNAL FANOUT DEVICE

Simplified Explanation

The abstract describes an optical splitter module that is used to split an input signal from an input optical fiber into multiple output signals directed into separate output optical fibers. The module includes an input optical fiber, output optical fibers, a splitter device, and a fanout device. The fanout device has openings to receive the output optical fibers. The module has an internal volume and an exit cavity, where all the components are received. The fanout device has a larger side length compared to the width of the exit cavity.

• The patent describes an optical splitter module for dividing an input signal from an input optical fiber into multiple output signals.
• The module includes an input optical fiber, output optical fibers, a splitter device, and a fanout device.
• The splitter device splits the input signal into multiple output signals, each directed into one of the output optical fibers.
• The fanout device has openings to receive the output optical fibers.
• The module has an internal volume and an exit cavity where all the components are received.
• The fanout device has a larger side length than the width of the exit cavity.

Potential Applications:

• Telecommunications: The optical splitter module can be used in telecommunications networks to split optical signals for distribution to multiple locations.
• Fiber Optic Networks: The module can be used in fiber optic networks to split signals for different devices or branches of the network.
• Data Centers: The module can be used in data centers to split optical signals for routing to different servers or equipment.

Problems Solved:

• Efficient Signal Splitting: The optical splitter module provides an efficient way to split optical signals without significant loss or degradation.
• Space-saving Design: The module's compact design allows for the integration of multiple components in a limited space.
• Easy Installation: The module's design simplifies the installation process by providing a centralized solution for signal splitting.

Benefits:

• Increased Signal Distribution: The optical splitter module enables the distribution of a single input signal to multiple output fibers, expanding the reach and capacity of optical networks.
• Cost Savings: By using a single module for signal splitting, the need for multiple individual splitters is eliminated, reducing costs.
• Improved Signal Quality: The module ensures minimal signal loss and maintains signal integrity during the splitting process, resulting in improved overall signal quality.

Original Abstract Submitted

an optical splitter module for splitting an input signal from an input optical fiber is provided. the optical splitter module includes the input optical fiber, output optical fibers, and a splitter device configured to split the input signal from the input optical fiber into a plurality of output signals that are each directed into one of the output optical fibers. the optical splitter module also includes a fanout device defining openings that are each configured to receive one of the output optical fibers. the optical splitter module defines an internal volume and an exit cavity. the input optical fiber, the output optical fibers, the splitter device, and the fanout device are each received in the internal volume. the fanout device defines a side length, the exit cavity defines a width, and the side length of the fanout device is greater than the width of the exit cavity.