EVB9303 SMSC, EVB9303 Datasheet - Page 100

EVB9303

Manufacturer Part Number

EVB9303

Description

EVALUATION BOARD FOR LAN9303

Manufacturer

SMSC

Datasheets

1.LAN9303-ABZJ.pdf (367 pages)

2.EVB9303.pdf (10 pages)

Specifications of EVB9303

Main Purpose

Interface, Ethernet

Embedded

Utilized Ic / Part

LAN9303

Primary Attributes

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

Secondary Attributes

Full Duplex and HP Auto-MDIX Support, 10BASE-T and 100BASE-TX

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

638-1095

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Revision 1.4 (07-07-10)

7.2.8

7.2.8.1

7.2.9

Auto-Negotiation LP Acknowledge

Link Down (Link Status Negated)

Auto-Negotiation Page Received

For reception, the 4-bit data nibbles are sent to the MII MAC Interface block. These data nibbles are

clocked to the controller at a rate of 25MHz for 100BASE-TX, or 2.5MHz for 10BASE-T. RXCLK is the

output clock for the internal MII bus. It is recovered from the received data to clock the RXD bus. If

there is no received signal, it is derived from the system reference clock.

PHY Management Control

The PHY Management Control block is responsible for the management functions of the PHY,

including register access and interrupt generation. A Serial Management Interface (SMI) is used to

support registers 0 through 6 as required by the IEEE 802.3 (Clause 22), as well as the vendor specific

registers allowed by the specification. The SMI interface consists of the MII Management Data (MDIO)

signal and the MII Management Clock (MDC) signal. These signals interface to the MDIO and MDC

pins of LAN9303/LAN9303i (or the PMI block in I

registers. Refer to

registers and register descriptions. Non-supported registers will be read as FFFFh.

PHY Interrupts

The PHY contains the ability to generate various interrupt events as described in

the

the interrupt, and clears the interrupt signal. The

(PHY_INTERRUPT_MASK_x)

block aggregates the enabled interrupts status into an internal signal which is sent to the System

Interrupt Controller and is reflected via the

Interrupt Event (PHY_INT1)

PHYs, respectively. For more information on interrupts, refer to

page

PHY Power-Down Modes

There are two power-down modes for the PHY:

Note: For more information on the various power management features of the device, refer to

Note: The power-down modes of each PHY (Port 1 PHY and Port 2 PHY) are controlled

Note: The PHY power-down modes do not reload or reset the PHY registers.

Auto-Negotiation Complete

Parallel Detection Fault

INTERRUPT SOURCE

Remote Fault Detected

ENERGYON Activated

PHY General Power-Down

PHY Energy Detect Power-Down

Port x PHY Interrupt Source Flags Register (PHY_INTERRUPT_SOURCE_x)

55.

4.3, "Power Management," on page

independently.

Section 13.3.2, "Port 1 & 2 PHY Registers," on page 191

Table 7.3 PHY Interrupt Sources

Small Form Factor Three Port 10/100 Managed Ethernet Switch with Single MII/RMII/Turbo MII

and

enables or disables each PHY interrupt. The PHY Management Control

Port 2 PHY Interrupt Event (PHY_INT2)

DATASHEET

100

54.

Interrupt Status Register (INT_STS)

PHY_INTERRUPT_SOURCE_x REGISTER BIT #

C mode of operation) and allow access to all PHY

PHY_INTERRUPT_MASK_x &

Port x PHY Interrupt Mask Register

Chapter 5, "System Interrupts," on

for the Port 1 and Port 2

for a list of all supported

SMSC LAN9303/LAN9303i

shows the source of

Table

bits

7.3. Reading

Port 1 PHY

Datasheet

Section

EVB9303 SMSC, EVB9303 Datasheet - Page 100

EVB9303

Specifications of EVB9303

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