WG82574L S LBA9 Intel, WG82574L S LBA9 Datasheet - Page 45

WG82574L S LBA9

Manufacturer Part Number

WG82574L S LBA9

Description

CONTROLLER, ENET, INTEL 82574L, 64PQFN

Manufacturer

Intel

Datasheet

1.WG82574IT_S_LBAC.pdf (490 pages)

Specifications of WG82574L S LBA9

Ethernet Type

IEEE 802.3, IEEE 802.3u, IEEE 802.3ab

Supply Voltage Range

3V To 3.6V

Operating Temperature Range

0Â°C To +85Â°C

Digital Ic Case Style

QFN

No. Of Pins

Package / Case

QFN

Interface Type

I2C, JTAG, PCI, SPI

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Interconnects—82574 GbE Controller

3.2.2.1

3.2.2.2

Note:

3.2.3

Full Duplex

All aspects of the IEEE 802.3, 802.3u, 802.3z, and 802.3ab specifications are

supported in full duplex operation. Full duplex operation is enabled by several

mechanisms, depending on the speed configuration of the 82574 and the specific

capabilities of the link partner used in the application. During full duplex operation, the

82574 might transmit and receive packets simultaneously across the link interface.

In full-duplex GMII/MII mode, transmission and reception are delineated independently

by the GMII/MII control signals. Transmission starts at the assertion of TX_EN, which

indicates there is valid data on the TX_DATA bus driven from the MAC to the PHY.

Reception is signaled by the PHY by the assertion of the RX_DV signal, which indicates

valid receive data on the RX_DATA lines to the MAC.

Half Duplex

The 82574L MAC can operate in half duplex.

In half duplex operation, the MAC attempts to avoid contention with other traffic on the

link by monitoring the CRS signal provided by the PHY and deferring to passing traffic.

When the CRS signal is de-asserted or after a sufficient Inter-Packet Gap (IPG) has

elapsed after a transmission, frame transmission begins. The MAC signals the PHY with

TX_EN at the start of transmission.

If a collision occurs, the PHY detects the collision and asserts the COL signal to the

MAC. Transmitting the frame stops within four link clock times and the 82574 sends a

JAM sequence onto the link. After the end of a collided transmission, the 82574 backs

off and attempts to re-transmit per the standard CSMA/CD method.

The re-transmissions are done from the data stored internally in the 82574 MAC

transmit packet buffer (no re-access to the data in host memory is performed).

After a successful transmission, the 82574 is ready to transmit any other frame(s)

queued in the MAC's transmit FIFO, after the minimum Inter-Frame Spacing (IFS) of

the link has elapsed.

During transmit, the PHY is expected to signal a carrier-sense (assert the CRS signal)

back to the MAC before one slot time has elapsed. The transmission completes

successfully even if the PHY fails to indicate CRS within the slot time window; if this

situation occurs, the PHY can either be configured incorrectly or be in a link down

situation. Such an event is counted in the Transmit Without CRS statistic register (see

section

Auto-Negotiation & Link Setup Features

The method for configuring the link between two link partners is highly dependent on

the mode of operation.

Configuration of the link can be accomplished by several methods ranging from:

The following sections describe processes of bringing the link up including configuration

of the 82574 and the transceiver, as well as the various methods of determining duplex

and speed configuration.

• software's forcing link settings

• software-controlled negotiation

• MAC-controlled auto-negotiation

• auto-negotiation initiated by a PHY.

10.2.7.11).

WG82574L S LBA9 Intel, WG82574L S LBA9 Datasheet - Page 45

WG82574L S LBA9

Specifications of WG82574L S LBA9

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