FDDINetwork Architecture 51
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Physical Medium Dependent (PMD) LayerThis portion of the FDDI network model defines the physical medium used to
carry the encoded digital signal. It is also referred to as the media layer.
The PMD layer determines the characteristics of the transmitters, receivers,
connectors, and cables used to attach the FDDI station to the network.
SunFDDI/P supports only the Multimode fiber (MMF)—single and dual-
attached PMD option.
Multi-Mode Fiber (MMF)
A fiber optic FDDI connection supports data transmission rates of up to 100
Mbps and, because attenuation in the fiber is very low,larger distances
between FDDI stations are possible without the use of repeaters. In addition,
fiberdoes not emit electromagneticradiation and is electrically nonconductive.
Therefore, it neither causes, nor suffers from,problems due to signal
interference between adjacent equipment or cabling.
SunFDDI/P supports 62.5/125 micrometer,multimode fiber (MMF).
Multimode fiber cannot support such largedistances between FDDI stations as
single-mode fiber (SMF), which is not supported by SunFDDI/P. However,
multimode fiber is cheaper,and uses lower cost terminations, connectors, and
light-sources.
Physical (PHY) LayerThe physical (PHY) layer handles the efficient encoding and decoding of
digital data. It is also referred to as the signal layer.
At the transmitting end, the PHY layer encodes the digital data into FDDI
symbols and passes them to the physical medium dependent (PMD) layer for
transmission. At the receiving end, the PHY layer decodes the FDDI symbols
and passes the digital data to the medium access control (MAC) layer.An
FDDI symbol is the basic transmission unit in an FDDI network.
The PHY layer also providesthe network synchronization mechanism. It uses a
distributed clocking scheme under which each FDDI station has its own local
clock to synchronize the transmission of outgoing data. The PHY layer extracts
clocking information from incoming data as it is received.