ELANSC400-66AC AMD (ADVANCED MICRO DEVICES), ELANSC400-66AC Datasheet - Page 66

ELANSC400-66AC

Manufacturer Part Number

ELANSC400-66AC

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.ELANSC400-66AC.pdf (132 pages)

Specifications of ELANSC400-66AC

Cpu Family

Elan

Device Core Size

16/32Bit

Frequency (max)

66MHz

Interface Type

ISA

Program Memory Type

ROMLess

Program Memory Size

Not Required

Number Of Timers - General Purpose

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.6V

Operating Supply Voltage (min)

Instruction Set Architecture

CISC

Operating Temp Range

0C to 95C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

292

Package Type

BGA

Lead Free Status / Rohs Status

Not Compliant

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Signal

Clocks

32KXTAL1

32KXTAL2

CLK_IO

LF_INT, LF_LS,

LF_VID, LF_HS

Parallel Port (Note: The names in parentheses in this section are those used in EPP mode.)

ACK (INTR)

AFDT (DSTRB)

BUSY (WAIT)

ERROR

INIT

PPDWE

PPOEN

SLCT

SLCTIN (ASTRB)

STRB (WRITE)

Serial Port

CTS

DCD

DSR

DTR

RIN

Type

I/O

Élan™SC400 and ÉlanSC410 Microcontrollers Data Sheet

Table 19. Signal Description Table (Continued)

Description

32.768-kHz Crystal Interface Signals are used for the 32.768-kHz crystal. This is the main

clock source for the chip and drives the internal Phase-Locked Loops (PLLs) that generate

all other clock frequencies needed in the system.

Clock Input/Output is an input to drive the integrated 8254 timer with a 1.19318-MHz clock

signal from an external source, or an output to bring out certain internal clock sources to drive

external devices.

Loop Filters connect external RC loop filters required by the internal PLLs. LF_VID is not

supported on the ÉlanSC410 microcontroller.

Printer Acknowledge: In standard mode, this signal is driven by the parallel port device with

the state of the printer acknowledge signal. In EPP mode, this signal indicates to the chip that

the parallel port device has generated an interrupt request.

Auto Line Feed Detect: In standard mode, this signal is driven by the chip indicating to the

parallel port device to insert a line feed at the end of every line. In EPP mode, this signal is

driven active by the chip during reads or writes to the EPP data registers.

Printer Busy: In standard mode, this signal is driven by the parallel port device with the state

of the printer busy signal. In EPP mode, this signal adds wait states to the current cycle.

Error: The printer asserts this signal to inform the parallel port of a deselect condition, paper

end (PE) or other error condition.

Initialize Printer: This signals the printer to begin an initialization routine.

Paper End: The printer asserts this signal when it is out of paper.

Parallel Port Write Enable controls an external 374 type latch in a unidirectional parallel port

design. This device latches the SD7–SD0 bus onto the parallel port data bus. To implement

a bidirectional parallel port, this pin can be reconfigured to act as an address decode for the

parallel port data port. PPDWE can then be externally gated with IOR and IOW to provide

the Parallel Port Data Read and Write Strobes, respectively.

Parallel Port Output Buffer Enable supports a bidirectional parallel port design. PPOEN

controls the output enable of the external Parallel Port Output Buffer (373 octal D-type

transparent latch).

Printer Select is returned by a printer upon receipt of SLCTIN.

Printer Selected: In Standard mode, this signal is driven by the chip to select the parallel

port device. In EPP mode, this signal is driven active by the chip during reads or writes to the

EPP address register.

Strobe: In Standard mode, this signal indicates to the parallel port device to latch the data

on the parallel port data bus. In EPP mode, this signal is driven active during writes to the

EPP data or the EPP address register.

Clear To Send is driven back to the serial port to indicate that the external data carrier

equipment (DCE) is ready to accept data.

Data Carrier Detect is driven back to the serial port from a piece of data carrier equipment

when it has detected a carrier signal from a communications target.

Data Set Ready indicates that the external DCE is ready to establish a communication link

with the internal serial port controller.

Data Terminal Ready indicates to the external DCE that the internal serial port controller is

ready to communicate.

Ring Indicate is used by an external modem to inform the serial port that a ring signal was

detected. A change in state on this signal by the external modem can be configured to cause

a modem status interrupt. This signal can be used to cause the chip to resume from a

Suspend state.

ELANSC400-66AC AMD (ADVANCED MICRO DEVICES), ELANSC400-66AC Datasheet - Page 66

ELANSC400-66AC

Specifications of ELANSC400-66AC

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