Views: 0 Author: Site Editor Publish Time: 2024-05-22 Origin: Site
In modern production, the trend towards lightweight and integrated circuit and communication equipment is accelerating. The challenge lies in integrating more functions within limited space to create a product that meets multiple functional requirements. This necessitates the development of a photonic-electronic integration device that simplifies construction and maximizes space utilization. The goal of a photonic-electronic integration box is to address the insufficient integration levels of current technology.
The photonic-electronic integration box features a rack with an internal partition dividing the space into upper and lower sections. One side of the upper section has an optical fiber access panel. The upper interior side wall of the rack is equipped with several bundle clamps. Additionally, the exterior of the rack connects to a fixed plate with several array-arranged slotted holes.
Key Components:
Optical Fiber Distribution Unit:
Includes multiple optical fiber input interfaces, output interfaces, and splitters.
Input interfaces are arranged in parallel on one side of the optical fiber access panel, while output interfaces are arranged on the opposite side.
The splitters are fixed on the upper interior side wall of the rack, corresponding in number to the input interfaces.
Current Distribution Unit:
Located in the lower section of the rack, it receives power from an external source at its input end.
Outputs power through several parallel output terminals, matching the number of optical fiber output interfaces.
For instance, if there are 4 optical fiber input interfaces and 4 splitters (1*8 splitter), there should be 32 optical fiber output interfaces. The current distribution unit connects to a 48V/18A power terminal at the input end and provides 32 channels of 48V/1.8A power at the output end.
The optical fiber access panel is divided into input and output sections, each with several sub-sections to manage the optical fiber interfaces and adaptors efficiently.
The primary benefit of this integration box is the seamless combination of the optical fiber distribution unit and the power supply unit within the same rack. This design simplifies the supply of power to each split optical fiber, ensuring that the power distribution corresponds accurately to the optical paths.
Fiber and Power Integration Rack:
High-precision components and partitioned design for optimal space utilization.
Equipped with bundle clamps and fixed plates for secure installation.
Optical Fiber Distribution Unit:
Input and output interfaces for fiber connections.
Optical splitters for efficient fiber distribution.
Current Distribution Unit:
Reliable power distribution matching the fiber output interfaces.
High-capacity power handling for extensive network setups.
The photonic-electronic integration box is ideal for scenarios requiring high integration levels and efficient space utilization. It supports various network configurations and simplifies both the installation and maintenance processes.
The photonic-electronic integration box represents a significant advancement in the integration of optical and electronic components. By housing both the fiber distribution and power supply units within a single rack, it ensures efficient power distribution and fiber management. This innovative solution is designed to meet the evolving demands of modern communication and networking environments.
