STPCC5HEBC STMicroelectronics, STPCC5HEBC Datasheet - Page 19

STPCC5HEBC

Manufacturer Part Number

STPCC5HEBC

Description

IC SYSTEM-ON-CHIP X86 388-PBGA

Manufacturer

STMicroelectronics

Series

-r

Datasheet

1.STPCC5HEBC.pdf (93 pages)

Specifications of STPCC5HEBC

Applications

Set-Top Boxes, TV

Core Processor

x86

Program Memory Type

External Program Memory

Controller Series

STPC® Consumer-II

Ram Size

External

Interface

EBI/EMI, I²C, IDE, ISA, Local Bus

Number Of I /o

Voltage - Supply

2.45 V ~ 3.6 V

Operating Temperature

0°C ~ 85°C

Mounting Type

Package / Case

Lead Free Status / RoHS Status

Not Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

STPCC5HEBC

Manufacturer:

DAVICOM

Quantity:

1 001

Company:

BOSTOCK HK LIMITED

Part Number:

STPCC5HEBC

Manufacturer:

STMicroelectronics

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

STPCC5HEBC

Manufacturer:

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

STPCC5HEBCE

Manufacturer:

Quantity:

200

Company:

BOSTOCK HK LIMITED

Part Number:

STPCC5HEBCE

Manufacturer:

Current page: 19 of 93
Download datasheet (2Mb)

ISACLK and ISACLKX2 as the input selection

strobes.

DACK_ENC[2:0] DMA Acknowledge. These are

the ISA bus DMA acknowledge signals. They are

encoded by the STPC Consumer-II before output

and should be decoded externally using ISACLK

and ISACLKX2 as the control strobes.

TC ISA Terminal Count. This is the terminal count

output of the DMA controller and is connected to

the TC line of the ISA bus. It is asserted during the

last DMA transfer, when the byte count expires.

RTCAS Real time clock address strobe. This sig-

nal is asserted for any I/O write to port 70H.

RMRTCCS# ROM/Real Time clock chip select.

This signal is asserted if a ROM access is

decoded during a memory cycle. It should be

combined with MEMR# or MEMW# signals to

properly access the ROM. During a IO cycle, this

signal is asserted if access to the Real Time Clock

(RTC) is decoded. It should be combined with IOR

or IOW# signals to properly access the real time

clock.

KBCS# Keyboard Chip Select. This signal is

asserted if a keyboard access is decoded during a

I/O cycle.

RTCRW# Real Time Clock RW. This pin is a multi-

function pin. When ISAOE# is active, this signal is

used as RTCRW#. This signal is asserted for any

I/O write to port 71H.

RTCDS# Real Time Clock DS . This pin is a multi-

function pin. When ISAOE# is active, this signal is

used as RTCDS#. This signal is asserted for any I/

O read to port 71H. Its polarity complies with the

DS pin of the MT48T86 RTC device when

configured with Intel timings.

Note:

RTCDS# signals must be ORed externally with

ISAOE# and then connected to the external

device. An LS244 or equivalent function can be

used if OE# is connected to ISAOE# and the

output is provided with a weak pull-up resistor as

shown in

2.2.5. LOCAL BUS INTERFACE

PA[23:0] Address Bus Output.

PD[15:0] Data Bus. This is the 16-bit data bus.

D[7:0] is the LSB and PD[15:8] is the MSB.

PRD#[1:0] Read Control output. PRD0# is used to

read the LSB and PRD1# to read the MSB.

PWR#[1:0] Write Control output. PWR0# is used

to write the LSB and PWR1# to write the MSB.

RMRTCCS#,

Figure

6-10.

KBCS#,

RTCRW#

Release 1.5 - January 29, 2002

and

PRDY Data Ready input. This signal is used to

create wait states on the bus. When high, it

completes the current cycle.

FCS#[1:0] Flash Chip Select output. These are

the Programmable Chip Select signals for up to

two banks of Flash memory.

IOCS#[3:0] I/O Chip Select output. These are the

Programmable Chip Select signals for up to four

external I/O devices.

2.2.6. IDE INTERFACE

SCS1#, SCS3# Secondary Chip Select. These

signals are used as the active high secondary

master & slave IDE chip select signals. These

signals must be externally ANDed with the

ISAOE

guarantee it is active only when ISA bus is idle.

DA[2:0] Address. These signals are connected to

DA[2:0] of IDE devices directly or through a buffer.

If the toggling of signals are to be masked during

ISA bus cycles, they can be externally ORed with

ISAOE# before being connected to the IDE

devices.

DD[15:0] Databus. When the IDE bus is active,

they serve as IDE signals DD[11:0]. IDE devices

are connected to SA[19:8] directly and ISA bus is

connected to these pins through two LS245

transceivers as described in

PCS1#, PCS3# Primary Chip Select. These

signals are used as the active high primary master

& slave IDE chip select signals. These signals

must be externally ANDed with the ISAOE

before driving the IDE devices to guarantee it is

active only when ISA bus is idle.

DIORDY Busy/Ready. This pin serves as IDE

signal DIORDY.

PIRQ Primary Interrupt Request.

SIRQ Secondary Interrupt Request.

Interrupt request from IDE channels.

PDRQ Primary DMA Request.

SDRQ Secondary DMA Request.

DMA request from IDE channels.

PDACK# Primary DMA Acknowledge.

SDACK# Secondary DMA Acknowledge.

DMA acknowledge to IDE channels.

PDIOR#, PDIOW# Primary I/O Read & Write.

SDIOR#, SDIOW# Secondary I/O Read & Write .

Primary & Secondary channel read & write.

signal before driving the IDE devices to

PIN DESCRIPTION

Figure

6-10.

signal

19/93

STPCC5HEBC STMicroelectronics, STPCC5HEBC Datasheet - Page 19

STPCC5HEBC

Specifications of STPCC5HEBC

Available stocks

Related parts for STPCC5HEBC