EVB9311 SMSC, EVB9311 Datasheet - Page 89

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

Datasheet

SMSC LAN9311/LAN9311i

7.2.3

7.2.3.1

7.2.3.2

7.2.4

7.2.4.1

7.2.4.2

10BASE-T Transmit

Data to be transmitted comes from the switch fabric MAC. The 10BASE-T transmitter receives 4-bit

nibbles from the internal MII at a rate of 2.5MHz and converts them to a 10Mbps serial data stream.

The data stream is then Manchester-encoded and sent to the analog transmitter, which drives a signal

onto the twisted pair via the external magnetics.

10BASE-T transmissions use the following blocks:

MII MAC Interface

For a transmission, the switch fabric MAC drives the transmit data to the PHYs MII MAC Interface.

The MII MAC Interface is described in detail in

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

10M TX Driver and PLL

The 4-bit wide data is sent to the 10M TX Driver block. The nibbles are converted to a 10Mbps serial

NRZI data stream. The 10M PLL locks onto the external clock or internal oscillator and produces a

20MHz clock. This is used to Manchester encode the NRZ data stream. When no data is being

transmitted (TXEN is low), the 10M TX Driver block outputs Normal Link Pulses (NLPs) to maintain

communications with the remote link partner. The manchester encoded data is sent to the analog

transmitter where it is shaped and filtered before being driven out as a differential signal across the

TXPx and TXNx outputs (where “x” is replaced with “1” for the Port 1 PHY, or “2” for the Port 2 PHY).

10BASE-T Receive

The 10BASE-T receiver gets the Manchester-encoded analog signal from the cable via the magnetics.

It recovers the receive clock from the signal and uses this clock to recover the NRZI data stream. This

10M serial data is converted to 4-bit data nibbles which are passed to the controller across the internal

MII at a rate of 2.5MHz.

10BASE-T reception uses the following blocks:

Filter and Squelch

The Manchester signal from the cable is fed into the PHY on inputs RXPx and RXNx (where “x” is

replaced with “1” for Port 1, or “2” for Port 2) via 1:1 ratio magnetics. It is first filtered to reduce any

out-of-band noise. It then passes through a SQUELCH circuit. The SQUELCH is a set of amplitude

and timing comparators that normally reject differential voltage levels below 300mV and detect and

recognize differential voltages above 585mV.

10M RX and PLL

The output of the SQUELCH goes to the 10M RX block where it is validated as Manchester encoded

data. The polarity of the signal is also checked. If the polarity is reversed (local RXP is connected to

RXN of the remote partner and vice versa), then this is identified and corrected. The reversed condition

is indicated by the flag “XPOL“, bit 4 in

MII MAC Interface (digital)

10M TX Driver (digital/analog)

10M PLL (analog)

Filter and SQUELCH (analog)

10M RX (digital/analog)

MII MAC Interface (digital)

10M PLL (analog)

802.3 specification for additional details.

DATASHEET

Port x PHY Special Control/Status Indication Register

Section 7.2.7, "MII MAC

Interface".

Revision 1.7 (06-29-10)

EVB9311 SMSC, EVB9311 Datasheet - Page 89

EVB9311

Specifications of EVB9311

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