ELANSC410-66AC AMD (ADVANCED MICRO DEVICES), ELANSC410-66AC Datasheet - Page 74

ELANSC410-66AC

Manufacturer Part Number

ELANSC410-66AC

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.ELANSC410-66AC.pdf (132 pages)

Specifications of ELANSC410-66AC

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Using the Configuration Pins to Select

Pin Functions

The configuration pins are used only for those func-

tions that must be selected at reset, prior to firmware

execution. All other I/O functions are selected using

configuration registers.

Table 21 provides an overview of the configuration pin

functions. All of the CFG pins have weak internal pull-

down resistors that select the default function. External

pullup resistors are required to select an alternative

function.

Notes:

1. CFG3 is defined as the enable/disable for the DBUFOE,

2. The x32 ROM option must be selected for ROMCS0 for

CFG0 and CFG1 Pins

These pins (shown in Table 22) configure the data bus

width (x8, x16, or x32) of the ROM interface that is se-

lected by the ROMCS0 pin. If a x32 ROM is selected,

these pins also enable the ROM x32 Data Bus Buffer

Output Enable signal (R32BFOE). If a 32-bit data bus

width is selected for the ROM interface, the R32BFOE

signal will be asserted for all ROMCSx accesses to

32-bit ROM. Exercise caution because the data bus

width for the ROMCS0 interface can also be changed

through programming. This feature was implemented

mainly for testing.

CFG3

(

DBUFRDL, and DBUFRDH signals. They can be enabled

independently of whether a x32 D bus is selected via the

firmware to support the VL local bus or x32 DRAM interface.

the R32BFOE signal to be enabled. The selection of the

DBUFOE, DBUFRDL, and DBUFRDH signals are still

dependent only on the CFG3 signal.

)

Table 21. Pinstrap Bus Buffer Options

CFG1 CFG0

ROMCS0

Reserved Reserved

Width

Data

x32

x16

Élan™SC400 and ÉlanSC410 Microcontrollers Data Sheet

DBUFRDL

Disabled

Enabled

DBUFRDH

DBUFOE

R32BFOE

Disabled

Reserved

Disabled

Enabled

Disabled

Reserved

Disabled

Enabled

CFG2 Pin—ÉlanSC400 Microcontroller Only

This configuration pin (see Table 23) is used on the

ÉlanSC400 microcontroller to select the ROMCS0

steering at system boot time. The boot ROM chip se-

lect (ROMCS0) can either be enabled to drive the

ROMCS0 pin or can be rerouted to drive the PC Card

(Socket A only) interface chip selects. The CFG0 and

CFG1 pins are still used to select the data bus width for

the ROMCS0 decode, regardless of the CFG2 config-

uration. The PC Card ROMCS0 redirection should not

be selected when the CFG0 and CFG1 configuration

pins are set to select a x32 ROM interface.

When the ROM chip select decode has been redi-

rected to PC Card Socket A, all of the normal PC Card

controller features can still be used to drive the PC

Card Socket A interface. The ROM chip select decode

remapping to the PC Card socket can be enabled and

disabled using firmware at any time.

CFG1

Table 22. CFG0 and CFG1 Configuration

Table 23. CFG2 Configuration (ÉlanSC400

CFG2

CFG0

microcontroller only)

Configuration

Enables the ROMCS0 decode

on the ROMCS0 pin

Enables the ROMCS0 decode

to access PC Card Socket A

Configuration

x8 ROMCS0 ROM interface

Reserved

x16 ROMCS0 ROM interface

x32 ROMCS0 ROM interface

ELANSC410-66AC AMD (ADVANCED MICRO DEVICES), ELANSC410-66AC Datasheet - Page 74

ELANSC410-66AC

Specifications of ELANSC410-66AC

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