Cabletron Systems BRIM-F6 User Manual

APPENDIX A: BASIC FDDI NETWORKS

Page A-6

BRIM-F6 User’s Guide

Other functions of the PHY include generation of a 125 Mhz transmit
clock, synchronization of the receive clock with an upstream transmitter,
encoding and decoding for media control symbols, and in some
applications, buffering for the incoming bit stream.

The MAC entity resides on the lower sublayer of the Data Link layer. The
upper sublayer, Logical Link Control (LLC) serves as an interface
between the OSI model and the FDDI network. The MAC element, under
control of Station Management, performs many of the tasks associated
with frame preparation and media access: ring scheduling, token
generation, timers that monitor ring activity, ring initialization, and
beaconing. Other tasks for the MAC entity include assembling data
frames, maintaining medium addressing, and generating and checking
data check bytes.

The MAC generates two basic message formats, tokens and frames.
Figure A-4 shows the layout for each message. Control and format bits
within the header define specific types of frames and classes of tokens.
The MAC sublayer receives transmittable Data frames from the LLC as
Service Data Units (SDUs). MAC uses these SDUs to construct Protocol
Data Units (PDUs) that it passes on to PHY. The PDUs consist of a MAC
header, the encapsulated SDU, and a Frame Check Sequence (FCS). The
MAC generates FCS during transmission.

Figure A-4. Token and Frame Formats

Frame

Control

2 Symbols

Preamble

≥

16 Symbols

Starting

Delimiter

2 Symbols

Destination Address

4 or 12 Symbols

Source Address

4 or 12 Symbols

Information

≥

0 Symbol Pairs

Frame Check

Sequence

8 Symbols

Ending

Delimiter

1 Symbols

Frame Status

≥

3 Symbols

Frame

Control

2 Symbols

Ending

Delimiter

2 Symbols

Preamble

≥

16 Symbols

Starting

Delimiter

2 Symbols

JK

TT

Frame Check

Sequence Coverage

T

Maximum - 9000 Symbols

TOKEN

FRAME

BRIM-F Book Page 6 Monday, January 29, 1996 9:26 AM