GD82559C S L3DF Intel, GD82559C S L3DF Datasheet - Page 54

GD82559C S L3DF

Manufacturer Part Number

GD82559C S L3DF

Description

Manufacturer

Intel

Datasheet

1.GD82559C_S_L3DF.pdf (120 pages)

Specifications of GD82559C S L3DF

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82559 — Networking Silicon

5.2.7

5.3

5.3.1

5.3.2

10BASE-T Full Duplex

The PHY unit supports 10 Mbps full duplex by disabling the collision function, the squelch test,

and the carrier sense transmit function. This allows the PHY unit to transmit and receive

simultaneously, achieving up to 20 Mbps of network bandwidth. The configuration can be achieved

through Auto-Negotiation. Full duplex should only be used in point-to-point connections (no

shared media).

Auto-Negotiation Functionality

The PHY unit supports Auto-Negotiation. Auto-Negotiation is an automatic configuration scheme

designed to manage interoperability in multifunctional LAN environments. It allows two stations

with “N” different modes of communication to establish a common mode of operation. At power-

up, Auto-Negotiation automatically establishes a link that takes advantage of an Auto-Negotiation

capable device. An Auto-Negotiation capable device can detect and automatically configure its

port to take maximum advantage of common modes of operation without user intervention or prior

knowledge by either station. The possible common modes of operation are: 100BASE-TX,

100BASE-TX Full Duplex, 10BASE-T, and 10BASE-T Full Duplex.

Description

Auto-Negotiation selects the fastest operating mode (in other words, the highest common

denominator) available to hardware at both ends of the cable. A PHY’s capability is encoded by

bursts of link pulses called Fast Link Pulses (FLPs). Connection is established by FLP exchange

and handshake during link initialization time. Once the link is established by this handshake, the

native link pulse scheme resumes (that is, 10BASE-T or 100BASE-TX link pulses). A reset or

management renegotiate command (through the MDI interface) will restart the process. To enable

Auto-Negotiation, bit 12 of the MDI Control Register must be set. If the PHY unit cannot perform

Auto-Negotiation, it will set this bit to a 0 and determine the speed using Parallel Detection.

The PHY unit supports four technologies: 100BASE-Tx Full and Half Duplex and 10BASE-T Full

and Half Duplex. Since only one technology can be used at a time (after every re-negotiate

command), a prioritization scheme must be used to ensure that the highest common denominator

ability is chosen. Each bit in this table is set according to what the PHY is capable of supporting. In

the case of the 82559’s PHY unit, bits 0, 1, 2, 3, and 5 (10BASE-T, 10BASE-T full duplex,

100BASE-TX, 100BASE-TX full duplex and pause [frame based flow control], respectively) are

set.

To detect the correct technology, the two register fields, technology ability and technology priority,

should be ANDed together to obtain the highest common denominator. This value should then be

used to map into a priority resolution table used by the MAC driver to use the appropriate

technology.

Parallel Detect and Auto-Negotiation

The PHY unit automatically determines the speed of the link either by using Parallel Detect or

Auto-Negotiation. Upon a reset, a link status fail, or a Negotiate/Re-negotiate command, the PHY

unit inserts a long delay during which no link pulses are transmitted. This period, known as

Force_Fail, insures that the PHY unit‘s link partner has gone into a Link Fail state before Auto-

Negotiation or Parallel Detection begins. Thus, both sides (PHY unit and PHY unit’s link partner)

Datasheet

GD82559C S L3DF Intel, GD82559C S L3DF Datasheet - Page 54

GD82559C S L3DF

Specifications of GD82559C S L3DF

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