08-08-2015, 07:25 PM
Hi Team,
I need a detailed project regarding fault detection of optical fibre using 8051
Thank you
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fault detection of optical fibre using 8051
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Hi Team,
I need a detailed project regarding fault detection of optical fibre using 8051
Thank you
04-04-2017, 05:01 PM
The field of fiber optic communications has exploded in the last two decades. Fiber is an integral part of modern communication infrastructure and can be found along roads, buildings, hospitals and machinery. The fiber itself is a glass wire based on silica, its dimensions are similar to those of a human hair, surrounded by a transparent coating. Light can be transmitted along the fiber over long distances at very high data rates providing an ideal medium for information transport. In recent years, fiber optic communication plays a vital role in fiber-based development in the present and future. Here find the exact location of the fault in the fiber optic cable. So we are proposing the intelligent fault detection system on an optical fiber to find fault in the fiber optic line. From the fiber we can monitor many number of parameters include temperature, current, transmitted power, received power, power supply. In our case we will monitor the power received from the fiber optic cable. Also, we can use different parameters to monitor the fault in that cable. Microcontroller configured to monitor 8 fiber optic cables at a time. In the same way we can add these microcontroller units to the monitoring box to find the optical power in each cable in the fiber optic line. ISIS proteus software used to simulate circuits. The PIC 16 series microcontroller is used for this system. The unique nature of Proteus-based schematic microcontroller simulation facilitates rapid, flexible and parallel development of both system hardware and system firmware. This design synergy allows engineers to evolve their projects more quickly, empowering them with the flexibility of making hardware or firmware changes at will and reducing the time to market.
An intelligent fault detection system that uses Arduino in fiber optic communication. The idea behind this fault monitoring module is to monitor the power supply received in fiber optics. The Arduino UNO consists of the Atmega 328 microcontroller together with the sensor unit. The sensor output is designed and simulated using Proteus ISIS simulators to monitor the power supply received on the optical fiber. The sensor unit used for the simulation consists of an LDR together with an opamp. If there are abrupt changes in the power of the optical line, the error message is displayed on the LCD, which is interconnected with Arduino and at the same time the date and time of the occurrence of failure will be transferred to the web server.
An intelligent fault detection system that uses Arduino in fiber optic communication. The idea behind this fault monitoring module is to monitor the power supply received in fiber optics. The Arduino UNO consists of the Atmega 328 microcontroller together with the sensor unit. The sensor output is designed and simulated using Proteus ISIS simulators to monitor the power supply received on the optical fiber. The sensor unit used for the simulation consists of an LDR together with an opamp. If there are abrupt changes in the power of the optical line, the error message is displayed on the LCD, which is interconnected with Arduino and at the same time the date and time of the occurrence of failure will be transferred to the web server.
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