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### Optical Fiber Assembly Design #### Objective: Produce a 3D model of a 125-micron diameter single-mode fiber optic cable housed in a precision ceramic fiber ferrule and launched into a ball lens to collimate the emitted light. #### Design Specifications: - **Single-mode Fiber**: The core component is a single-mode optical fiber with a 125-micron diameter. - **Precision Ceramic Fiber Ferrule**: The fiber is housed in a precision ceramic ferrule, ensuring accurate alignment and secure placement. - **Ball Lens**: A ball lens is used to collimate the light emitted from the single-mode fiber. #### Figure Description: The accompanying diagram illustrates the assembly: 1. **Single-mode Fiber**: Depicted as a central component, ensuring minimal signal loss and high data integrity. 2. **Fiber Ferrule**: Shown as a rectangular housing that securely holds the single-mode fiber. The ferrule is made from precision ceramic to enhance durability and alignment accuracy. 3. **Ball Lens**: Represented by a circle at the end of the assembly, this component is used to collimate the light emitted from the fiber. The figure demonstrates how the single-mode fiber is housed within the fiber ferrule which is aligned with the ball lens to achieve collimation. #### Design Considerations: 1. **Alignment Precision**: The 3D model should ensure precise alignment of the optical elements to minimize signal loss and ensure efficient light collimation. 2. **Material Selection**: Use high-quality ceramic for the fiber ferrule to ensure durability and accurate alignment. 3. **Scalability**: While the provided figure is not to scale, the 3D model should maintain practical dimensions suitable for real-world applications. 4. **Tolerance Management**: Address any manufacturing tolerances to ensure the components fit together seamlessly in the final assembly. Adhering to these design principles will contribute to an effective and reliable fiber optic assembly suitable for advanced optical applications.