English
Language : 

FDL300E Datasheet, PDF (1/15 Pages) List of Unclassifed Manufacturers – Fiber Optic Transceiver Solution for Seamless Digital to Light/ Light to Digital Conversion
PRELIMINARY PRODUCT SPECIFICATION
IEEE 1394b S200
Transceiver Pair
FDL300E/FDL300D
650 nm 250 Mbps
Fiber Optic Transceiver Solution
for Seamless Digital to Light/
Light to Digital Conversion
FEATURES
• Meets the IEEE 1394b S200 (250 Mbps) specification
• Integrated CMOS driver IC
• Resonant Cavity LED at red 650 nm with small emission
aperture suitable for Plastic Optical Fiber (POF)
• Resonant Cavity LED reliability tested to over 400,000
hours lifetime
• Configured for IEEE 1394b with LVDS I/O
• High sensitivity receiver IC and pin-diode for one-step
light to digital conversion
• Compatible with SMI connector form factor
• Integrated optics to efficiently focus and direct light
• Ultra-low power consumption
DESCRIPTION
Firecomms RCLED-based 650 nm fiber optic
transceiver (FOT) solution provides a seamless digital
media to red light conversion, and subsequent
recovery for performance at maximum speed in POF
applications such as IEEE 1394b S200. The FOTs
operate at LVDS signal levels directly compatible with
IEEE 1394b PHY ICs.
The FOT solution pairs Firecomms RCLED (Resonant
Cavity Light Emitting Diode) technology with an
encapsulated driver IC for coupling digital media
signals to light in a POF link. At the receive side, the
solution provides a 250 Mbps capacity light receiver
in an integrated package that recovers digital media
compatible signals (IEEE 1394 LVDS). The integration
of the emitter Tx FOT with its driver IC and a pin-diode
Rx FOT with a receiver IC in a POF link provides for a
high-integrity digital data link over a range of up to
50m at 250 Mbps (S200), depending on installation
conditions.
FDL300E/FDL300D (Preliminary) Revision P13
Firecomms assumes no responsibility for inaccuracies or omissions in the information
contained in this document. Specifications are subject to change without notice.
No patent rights are granted to any of the circuits described herein.