EVB9311 SMSC, EVB9311 Datasheet - Page 88

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)

7.2.2.3

7.2.2.4

7.2.2.5

7.2.2.6

7.2.2.7

NRZI and MLT-3 Decoding

The DSP generates the MLT-3 recovered levels that are fed to the MLT-3 converter. The MLT-3 is then

converted to an NRZI data stream.

Descrambler and SIPO

The descrambler performs an inverse function to the scrambler in the transmitter and also performs

the Serial In Parallel Out (SIPO) conversion of the data.

During reception of IDLE (/I/) symbols. the descrambler synchronizes its descrambler key to the

incoming stream. Once synchronization is achieved, the descrambler locks on this key and is able to

descramble incoming data.

Special logic in the descrambler ensures synchronization with the remote PHY by searching for IDLE

symbols within a window of 4000 bytes (40us). This window ensures that a maximum packet size of

1514 bytes, allowed by the IEEE 802.3 standard, can be received with no interference. If no IDLE-

symbols are detected within this time-period, receive operation is aborted and the descrambler re-starts

the synchronization process.

The de-scrambled signal is then aligned into 5-bit code-groups by recognizing the /J/K/ Start-of-Stream

Delimiter (SSD) pair at the start of a packet. Once the code-word alignment is determined, it is stored

and utilized until the next start of frame.

5B/4B Decoding

The 5-bit code-groups are translated into 4-bit data nibbles according to the 4B/5B table shown in

Table

MAC. The SSD, /J/K/, is translated to “0101 0101” as the first 2 nibbles of the MAC preamble.

Reception of the SSD causes the PHY to assert the RXDV signal, indicating that valid data is available

on the RXD bus. Successive valid code-groups are translated to data nibbles. Reception of either the

End of Stream Delimiter (ESD) consisting of the /T/R/ symbols, or at least two /I/ symbols causes the

PHY to de-assert carrier sense and RXDV. These symbols are not translated into data.

Receiver Errors

During a frame, unexpected code-groups are considered receive errors. Expected code groups are the

DATA set (0 through F), and the /T/R/ (ESD) symbol pair. When a receive error occurs, the internal

MII’s RXER signal is asserted and arbitrary data is driven onto the internal receive data bus (RXD) to

the switch fabric MAC. Should an error be detected during the time that the /J/K/ delimiter is being

decoded (bad SSD error), RXER is asserted and the value 1110b is driven onto the internal receive

data bus (RXD) to the switch fabric MAC. Note that the internal MII’s data valid signal (RXDV) is not

yet asserted when the bad SSD occurs.

MII MAC Interface

For reception, the 4-bit data nibbles are sent to the MII MAC Interface block where they are sent via

MII to the switch fabric MAC. The MII MAC Interface is described in detail in

Interface".

Note: The PHY is connected to the switch fabric MAC via standard MII signals. Refer to the IEEE

7.2. The translated data is presented on the internal MII RXD[3:0] signal lines to the switch fabric

802.3 specification for additional details.

DATASHEET

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

Section 7.2.7, "MII MAC

SMSC LAN9311/LAN9311i

Datasheet

EVB9311 SMSC, EVB9311 Datasheet - Page 88

EVB9311

Specifications of EVB9311

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