The transmitter is optimised for use with glass fibre-optic systems and thanks to both higher launch powers (up to 30% increase over the previous device generation) and enhanced consistency from device to device, delivers improved levels of performance, enabling data to be sent over greater distances – up to a kilometre further depending on fibre type and size.
A further advantage offered by the higher launch power of the FDE854LBF is its ability to be driven at up to 30% lower currents for applications that do not require the additional launch power. In a large installation, involving 20,000 to 30,000 channels for example, the resulting power saving can be several kilowatts, helping the application to meet environmental criteria, while reducing power supply requirements and heat generation. This feature is also useful for applications drawing power from batteries, renewables, or those in a restricted power environment.
The reduction in generated heat can be helpful in designs where heat build-up can be problematic, such as enclosed, space-restricted applications or where there are sensitive components used on the same PCB. Under driving to save power also prolongs the life expectancy of the system.
The FDE854LBF can be supplied mounted into OMC’s full range of industrial fibre-optic device receptacles to deliver complete transmitter modules. In combination with the company’s proprietary Active Component Alignment (ACA™) technology, transmitter devices with exceptional consistency and long-term reliability can be supplied.
The FDE854LBF has been introduced under OMC’s continuous product enhancement programme. The company invests heavily in R&D, which enables it to remain one of the foremost manufacturers in the industrial fibre optic market.
