ELANSC400-66AI AMD (ADVANCED MICRO DEVICES), ELANSC400-66AI Datasheet - Page 69

ELANSC400-66AI

Manufacturer Part Number

ELANSC400-66AI

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

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

Specifications of ELANSC400-66AI

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

-40C to 95C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

292

Package Type

BGA

Lead Free Status / Rohs Status

Not Compliant

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Signal

LCDD7–LCDD0

LVDD

LVEE

SCK

Boundary Scan Test Interface

BNDSCN_TCK

BNDSCN_TDI

BNDSCN_TDO

BNDSCN_TMS

Reset and Power

BBATSEN

GND

RESET

_CPU

_RTC

Analog

Type

CPU

RTC

Élan™SC400 and ÉlanSC410 Microcontrollers Data Sheet

Table 19. Signal Description Table (Continued)

Description

LCD Panel Line Clock is activated at the start of every pixel line. It is commonly referred to

by LCD data sheets as CL1 or CP1. This signal is not supported on the ÉlanSC410

microcontroller.

LCD Panel Data bits: LCDD7–LCDD0 are data bits for the LCD panel interface. When

driving 4-bit single-scan panels, bits 3–0 form a nibble-wide LCD data interface. In dual-scan

panel mode, LCDD3–LCDD0 are the data bits for the top half of the LCD, and LCDD7–

LCDD4 are the data bits for the bottom half of the LCD. When driving 8-bit single-scan panels

(monochrome or color STN), these bits are the 8-bit data interface. These signals are not

supported on the ÉlanSC410 microcontroller.

LCD Panel VDD Voltage Control is used to control the assertion of the LCD’s V

This is provided to be part of the solution in sequencing the panel’s V

the proper order during panel power-up and power-down to prevent damage to the panel

from CMOS driver latch up. V

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

LCD Panel VEE Voltage Control is used to control the assertion of the LCD’s V

This is provided to be part of the solution in sequencing the panel’s V

the proper order during panel power-up and power-down to prevent damage to the panel

from CMOS driver latch up. V

with an amplitude of 15–30 V DC.This signal is not supported on the ÉlanSC410

microcontroller.

LCD Panel AC Modulation is the AC modulation signal for the LCD. AC modulation causes

the LCD panel drivers to reverse polarity to prevent an internal DC bias from forming on the

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

LCD Panel Shift Clock is the nibble/byte strobe used by the LCD panel to latch a nibble or

byte of incoming data. Commonly referred to by LCD panels as CL2 or CP2. This signal is

not supported on the ÉlanSC410 microcontroller.

Test Clock is the boundary-scan input clock that is used to shift serial data patterns in from

BNDSCN_TDI.

Test Data Input is the serial input stream for boundary-scan input data. This pin has a weak

internal pullup resistor. It is sampled on the rising edge of BNDSCN_TCK. If not driven, this

input is sampled High internally.

Test Data Output is the serial output stream for boundary-scan result data. It is in the high-

impedance state except when scanning is in progress.

Test Mode Select is an input for controlling the test access port. This pin has a weak internal

pullup resistor. If it is not driven, it is sampled High internally.

Backup Battery Sense: RTC (Real Time Clock) backup battery voltage is sampled on this

pin each time the AV

samples below 2.4 V, the VRT bit (RTC index 0Dh) is cleared until read one time. At this time,

the VRT bit is set until BBATSEN is sampled again. BBATSEN also provides a power-on-

reset signal for the RTC when an RTC backup battery is applied for the first time.

Ground Pins

Reset Input is an asynchronous hardware reset input equivalent to POWERGOOD in the AT

system architecture.

3.3-V DC Supply Pins provide power to the discrete logic and I/O pins.

3.3-V Supply Pins provide power to the analog section of the chip, including the internal

PLLs and integrated oscillator circuit. Extreme care should be taken that this supply voltage

is isolated properly to provide a clean, noise free voltage to the PLLs.

3.3-V DC Supply Pins provide power to the internal CPU.

3.3-V Supply Pin provides power to the internal real-time clock and on-board static/

configuration RAM. This pin can be driven independently of all other power pins.

pin has power applied to it followed by a chip master reset. If this

is the LCD contrast voltage and is either positive or negative

is used to power the LCD logic and is usually +5 V or +3 V

, DATA, and V

voltage.

ELANSC400-66AI AMD (ADVANCED MICRO DEVICES), ELANSC400-66AI Datasheet - Page 69

ELANSC400-66AI

Specifications of ELANSC400-66AI

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