LAN9118_05 SMSC [SMSC Corporation], LAN9118_05 Datasheet - Page 29

LAN9118_05

Manufacturer Part Number

LAN9118_05

Description

High Performance Single-Chip 10/100 Non-PCI Ethernet Controller

Manufacturer

SMSC [SMSC Corporation]

Datasheet

1.LAN9118_05.pdf (126 pages)

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High Performance Single-Chip 10/100 Non-PCI Ethernet Controller

Datasheet

SMSC LAN9118

3.6

3.6.1

3.6.2

3.7

Destination Address Source Address ……………FF FF FF FF FF FF

00 11 22 33 44 55 00 11 22 33 44 55 00 11 22 33 44 55 00 11 22 33 44 55

…CRC

It should be noted that Magic Packet detection can be performed when LAN9118 is in the D0 or D1

power states. In the D0 state, “Magic Packet” detection is enabled when the MPEN bit is set. In the

D1 state, Magic Packet detection, as well as wake-up frame detection, are automatically enabled when

the device enters the D1 state.

The LAN9118 can be configured to communicate with the host bus via either a 32-bit or a 16-bit bus.

An external strap is used to select between the two modes. 32-bit mode is the native environment for

the LAN9118 Ethernet controller and no special requirements exist for communication in this mode.

However, when this part is used in the 16-bit mode, two writes or reads must be performed back to

back to properly communicate.

The bus width is set by strapping the EEDIO pin; this setting can be read from bit 2 of the “Hardware

Configuration Register”. Please refer to

on page 75

16-bit Bus Writes

The host processor is required to perform two contiguous 16-bit writes to complete a single DWORD

transfer. This DWORD must begin and end on a DWORD address boundary (A[2] and higher, cannot

change during a sixteen bit write). No ordering requirements exist. The processor can access either

the low or high word first, as long as the next write is performed to the other word. If a write to the

same word is performed, the LAN9118 disregards the transfer.

16-bit Bus Reads

The host processor is required to perform two consecutive 16-bit reads to complete a single DWORD

transfer. This DWORD must begin and end on a DWORD address boundary (A[2] and higher, cannot

change during a sixteen bit read). No ordering requirements exist. The processor can access either

the low or high word first, as long as the next read is performed from the other word. If a read to the

same word is performed, the data read is invalid and should be re-read. This is not a fatal error. The

LAN9118 will reset its read counters and restart a new cycle on the next read. The Upper 16 data pins

(D[31:16]) are not driven by the LAN9118 in 16-bit mode. These pins have internal pull-down’s and the

signals are left in a high-impedance state.

The SMSC LAN9118 supports “Big-” or “Little-Endian” processors in either 16 or 32-bit bus width

modes. To support big-endian processors, the hardware designer must explicitly invert the layout of

the byte lanes. In addition, for a 16-bit interface, the big-endian register must be set correctly following

Table 3.7, "Byte Lane

The host bus interface can be selected via an external strap to translate the data bus into either mode.

Please refer to

multiplexed signal D32/nD16 for more information on data bus width selection.

Additionally, please refer to

information on status indication on Endian modes.

32-bit vs. 16-bit Host Bus Width Operation

Big and Little Endian Support

for additional information on this register.

Table 2.4, “Serial EEPROM Interface Signals,” on page

Mapping".

Section 5.3.17, "ENDIAN—Endian Control," on page 84

DATASHEET

Section 5.3.9, "HW_CFG—Hardware Configuration Register,"

16, for information on

Revision 1.1 (05-17-05)

for additional

LAN9118_05 SMSC [SMSC Corporation], LAN9118_05 Datasheet - Page 29

LAN9118_05

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