EVB9311 SMSC, EVB9311 Datasheet - Page 60

EVB9311

Manufacturer Part Number

EVB9311

Description

EVALUATION BOARD LAN9311-NU

Manufacturer

SMSC

Series

0133r

Datasheet

1.LAN9311-NU.pdf (460 pages)

Specifications of EVB9311

Main Purpose

Interface, Ethernet

Embedded

Utilized Ic / Part

LAN9311

Primary Attributes

2 Ports, 100BASE-TX/10BASE-T, Managed

Secondary Attributes

2 PHYs with HP Auto-MDIX, Auto- Flow Control, 32-bit CRC, MDI/MDI-X

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

638-1076

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Revision 1.7 (06-29-10)

6.3

6.3.1

Per

The switch fabric contains three 10/100 MAC blocks, one for each switch port (0,1,2). The 10/100 MAC

provides the basic 10/100 Ethernet functionality, including transmission deferral and collision back-

off/retry, receive/transmit FCS checking and generation, receive/transmit pause flow control, and

transmit back pressure. The 10/100 MAC also includes RX and TX FIFOs and per port statistic

counters.

Receive MAC

The receive MAC (IEEE 802.3) sublayer decomposes Ethernet packets acquired via the internal MII

interface by stripping off the preamble sequence and Start of Frame Delimiter (SFD). The receive MAC

checks the FCS, the MAC Control Type, and the byte count against the drop conditions. The packet

is stored in the RX FIFO as it is received.

The receive MAC determines the validity of each received packet by checking the Type field, FCS, and

oversize or undersize conditions. All bad packets will be either immediately dropped or marked (at the

end) as bad packets.

Oversized packets are normally truncated at 1519 or 1523 (VLAN tagged) octets and marked as

erroneous. The MAC can be configured to accept packets up to 2048 octets (inclusive), in which case

the oversize packets are truncated at 2048 bytes and marked as erroneous.

Undersized packets are defined as packets with a length less than the minimum packet size. The

minimum packet size is defined to be 64 bytes, exclusive of preamble sequence and SFD.

The FCS and length/type fields of the frame is checked to detect if the packet has a valid MAC control

frame. When the MAC receives a MAC control frame with a valid FCS and determines the operation

code is a pause command (Flow Control frame), the MAC will load its internal pause counter with the

Number_of_Slots variable from the MAC control frame just received. Anytime the internal pause

counter is zero, the transmit MAC will be allowed to transmit (XON). If the internal pause counter is

not zero, the receive MAC will not allow the transmit MAC to transmit (XOFF). When the transmit MAC

detects an XOFF condition it will continue to transmit the current packet, terminating transmission after

the current packet has been transmitted until receiving the XON condition from the receive MAC. The

pause counter will begin to decrement at then end of the current transmission, or immediately if no

transmission is underway. If another pause command is received while the transmitter is already in

pause, the new pause time indicated by the Flow Control packet will be loaded into the pause counter.

The pause function is enabled by either Auto-negotiation, or manually as discussed in

10/100 Ethernet MACs

Case 1 - Auto-negotiation is still in progress. Since the result is not yet established, flow control is

disabled.

Case 2 - Auto-negotiation is enabled and unsuccessful (link partner not Auto-negotiation capable).

The link partner ability is undefined, effectively a don’t-care value, in this case. The duplex setting

will default to half-duplex in this case. Flow control is determined by the BP_EN_x bit.

Case 3 - Auto-negotiation is enabled and successful with half-duplex as a result. The link partner

ability is undefined since it only applies to full-duplex operation. Flow control is determined by the

BP_EN_x bit.

Cases 4-11 -Auto-negotiation is enabled and successful with full-duplex as the result. In these

cases, the advertisement registers and the link partner ability controls the RX and TX enables.

These cases match IEEE 802.3 Annex 28B.3.

Table

Cases 4,5,6,8,10 - No flow control enabled

Case 7 - Asymmetric pause towards partner (away from switch port)

Case 9 - Symmetric pause

Case 11 - Asymmetric pause from partner (towards switch port)

6.1, the following cases are possible:

DATASHEET

Two Port 10/100 Managed Ethernet Switch with 16-Bit Non-PCI CPU Interface

SMSC LAN9311/LAN9311i

Section 6.2.3,

Datasheet

EVB9311 SMSC, EVB9311 Datasheet - Page 60

EVB9311

Specifications of EVB9311

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