ELANSC400-66AC AMD (ADVANCED MICRO DEVICES), ELANSC400-66AC Datasheet - Page 68

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

ICDIR

MCEH_A, MCEH_B

MCEL_A, MCEL_B

PCMA_VCC

PCMA_VPP2–

PCMA_VPP1

PCMB_VCC

PCMB_VPP2–

PCMB_VPP1

RDY_A (IREQ_A),

RDY_B (IREQ_B)

REG_A (DACK_A),

REG_B (DACK_B)

RST_A, RST_B

WAIT_AB

WE (TC)

WP_A (IOIS16_A)

(DRQ_A), WP_B

(IOIS16_B)

(DRQ_B)

LCD Graphics Controller (ÉlanSC400 Microcontroller Only)

FRM

Type

Élan™SC400 and ÉlanSC410 Microcontrollers Data Sheet

Table 19. Signal Description Table (Continued)

Description

Card Data Direction controls the direction of the card data buffers or voltage translators. It

works with the MCEL and MCEH card enable signals to control data buffers on the card

interface. When this signal is High, the data flow is from the chip to the card socket, indicating

a data write cycle. When this signal is Low, the data flow is from the card socket into the chip,

indicating a read cycle. This signal is not supported on the ÉlanSC410 microcontroller.

Card Enables, High Byte enables a PC Card’s high data bus byte transceivers for the

respective card interfaces. These signals are not supported on the ÉlanSC410 microcontroller.

Card Enables, Low Byte enables a PC Card’s low data bus byte transceivers for the

respective card interfaces. These signals are not supported on the ÉlanSC410 microcontroller.

PC Card Output Enable: This is the PC Card memory read signal. This signal is not

supported on the ÉlanSC410 microcontroller.

PC Card Socket A V

not supported on the ÉlanSC410 microcontroller.

PC Card Socket A VPP Selects can be used to control the V

are not supported on the ÉlanSC410 microcontroller.

PC Card Socket B V

not supported on the ÉlanSC410 microcontroller.

PC Card Socket B VPP Selects can be used to control the V

are not supported on the ÉlanSC410 microcontroller.

Card Ready indicates that the respective card is ready to accept a new data transfer

command. When the card interface is configured as an I/O interface, this signal is used as

the card Interrupt Request input into the chip. These signals are not supported on the

ÉlanSC410 microcontroller.

Attribute Memory Select signals are driven inactive (High) for accesses to a PC Card’s

common memory, and asserted (Low) for accesses to a PC Card’s attribute memory and

I/O space for their respective card interfaces. When PC Card DMA is enabled, the DMA

acknowledge to the PC Card appears on this signal. These signals are not supported on the

ÉlanSC410 microcontroller.

Card Reset signals are the reset for their respective cards. When active, this signal clears

the Interrupt and General Control Register (PC Card index 03h and 43h), thus placing a card

in an unconfigured (Memory-Only mode) state. It also indicates the beginning of any additional

card initialization. These signals are not supported on the ÉlanSC410 microcontroller.

Extend Bus Cycle delays the completion of the memory access or I/O access that is

currently in progress. When this signal is asserted (Low), wait states are inserted into the

cycle in progress. Only one WAIT input is provided on the chip. External logic is required for

a two-socket implementation to logically AND (digitally OR) each card’s WAIT signal

together. This signal is not supported on the ÉlanSC410 microcontroller.

PC Card Write Enable is the PC Card memory write signal. Data is transferred from the chip

to the PC Card. When PC Card DMA is enabled, the DMA Terminal Count to the PC Card

appears on this signal. This signal is not supported on the ÉlanSC410 microcontroller.

Write Protect indicates the status of the respective card’s Write Protect switch. When the

respective card is configured for an I/O interface, this signal is used by the card to indicate

back to the chip that the currently accessed port is 16 bits wide. When PC Card DMA is

enabled, the DMA request from the PC Card can be programmed to appear on this signal.

See also the description for BVD2_A (SPKR_A) (DRQ_A) and BVD2_B (SPKR_B)

(DRQ_B); the DMA request can also be programmed to appear on these pins. These signals

are not supported on the ÉlanSC410 microcontroller.

LCD Panel Line Frame Start is asserted by the chip at the start of every frame to indicate

to the LCD panel that the next data clocked out is intended for the start of the first scan line

on the panel. Some panels refer to this signal as FLM or S (scan start-up). This signal is not

supported on the ÉlanSC410 microcontroller.

Enable can be used to control the V

to Socket A. This signal is

to Socket A. These signals

to Socket B. This signal is

to Socket B. These signals

ELANSC400-66AC AMD (ADVANCED MICRO DEVICES), ELANSC400-66AC Datasheet - Page 68

ELANSC400-66AC

Specifications of ELANSC400-66AC

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