Overview:
This project involved the design and development of an optical fiber transmitter device that leveraged modular architecture. The primary objective was to create a device capable of transmitting various services and protocols through Wavelength Division Multiplexing (WDM),
The device was designed with a modular approach, incorporating different cards from previous projects, including power, control, and service cards. This modular design facilitated flexibility and scalability, enabling easy integration of new components or functionalities.
The transmitter device featured transceiver cards equipped with SFP and XFP interfaces, enabling the transmission and reception of optical signals. The control and management of these transceiver cards were handled by a core board equipped with an embedded Linux system, providing a robust and efficient control platform.
The device’s architecture was designed to support WDM multiplexing, allowing multiple wavelengths to be transmitted simultaneously over a single optical fiber. This feature enabled the transmission of various services and protocols, making the device compatible with OTN equipment and suitable for deployment in optical communication networks.
Through the integration of modular components, embedded systems, and advanced optical transmission technologies, this project aimed to create a flexible and scalable optical fiber transmitter device. The device’s capabilities enabled the efficient transmission of diverse services and protocols, contributing to the advancement of optical communication networks and supporting the ever-increasing demand for high-speed data transmission.
Scope and Objectives:
- Design Electronic and Optical Circuit
- Design PCB(Altium Designer)
- Embedded System Design
- Communication Protocols and Interfaces (USB, I2C, Ethernet (Web, SNMP, Socket), SPI, Serial)
- Mechanical Design
- Optical Active and Passive Component
- Embedded Linux Os
- Debugging and Testing
