NSC PC87363-IBW-VLA, PC87363-ICK-VLA Datasheet

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PC87363 128-Pin LPC SuperI/O with MIDI and Game Ports, Extended Wake-Up and Protection

© 1999 National Semiconductor Corporation

General Description

The PC87363, a member of National Semiconductor’s 128­pin LPC SuperI/O family, introduces a Musical Instrument
Digital Interface (MIDI) Port and Game Port inputs for up to
two game devices. It also offers wake-up support for a wide
range of wake-up events, and new hardware and software
features to protect the system design. Like all members of
thisfamily,itisPC99 and ACPIcompliant, and offersa single­chip solution to the most commonly used PC I/O peripherals.

The PC87363 also incorporates: Fan Speed Control and
Monitoring for two fans, a Floppy Disk Controller (FDC), a
Keyboard and Mouse Controller (KBC), a full IEEE 1284
Parallel Port, two enhanced Serial Ports (UARTs), one with
Infrared (IR) support, ACCESS.bus

®

Interface (ACB), Sys­tem Wake-Up Control (SWC), General-Purpose Input/Out­put (GPIO) support for a total of 49 ports and an enhanced
WATCHDOG timer.

Outstanding Features

●

MIDI Port compatible with MPU-401 UART mode

●

Game Port inputs for up to two game devices

●

Extended Wake-Up support, including legacy/ACPI
power button support, direct power supply control in
response to wake-up events, power-fail recovery

●

Protection features, including chassis intrusion detection,
GPIO lock and pin configuration lock

●

Serial IRQ support (15 options)

●

Bus interface, based on Intel’s

LPC Interface Specifi-

cation

Revision 1.0, September 29th, 1997

●

Fan Speed Control and Monitor for two fans

●

ACCESS.bus Interface, SMBus physical layer compatible

●

49 GPIO Ports (37 standard, including 23 with Assert
IRQ/

SMI/PWUREQs interrupts; 12 VSB-powered)

●

Blinking LEDs

●

128-pin PQFP Package

Block Diagram

System Wake-Up

Serial Port 2

IEEE 1284

Wake-Up

Parallel Port

Ports

Keyboard &

Mouse I/F

SCL

ACCESS.bus

Floppy Disk

Controller

Floppy Drive

Interface

Keyboard &

Serial Infrared

Interface Interface

Control

Events

Bus

Interface

LPC

Interface

I/O

2 Control

WATCHDOG

Timer

WDO

PWUREQ

Serial Port 1

Serial

Interface

V

DD

V

BAT

Outputs

Fan Speed

Control & Monitor

Interface

Mouse Controller

with IR

GPIO Ports

2 Monitor

Inputs

SDA

Serial

IRQ

Parallel Port

Interface

SMI

Ports

MIDI

Interface

MIDI Port

Game Port

Game Device

Interface

Power

Control

V

SB

PRELIMINARY

January 10, 1999

PC87363
128-Pin LPC SuperI/O with MIDI andGame Ports,Extended
W ake-Up and Protection

ACCESS.bus® is a registered trademark of Digital Equipment Corporation.
I2C® is a registered trademark of Philips Corporation.
IBM®, MicroChannel®, PC-AT® and PS/2® are registered trademarks of International Business Machines Corporation.
Microsoft® and Windows® are registered trademarks of Microsoft Corporation.
TRI-STATE® is a registered trademark of National Semiconductor Corporation.
WATCHDOG‰ is a trademark of National Semiconductor Corporation.
SMBus® is a registered trademark of Intel Corporation.

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Features

• Musical Instrument Digital Interface (MIDI) Port

— Compatible with MPU-401 UART mode
— 16-byte Receive and Transmit FIFOs
— Loopback mode support

●

Game Port (GMP)

— Compatible with the Legacy Game Port definition
— Full digital implementation
— Supports up to two analog game devices

• Extended Wake-Up

— Legacy and ACPI power button support
— Direct power supply control in response to wake-up

events

— Power-fail recovery

• Protection

— Chassis intrusion detection (CHASI,

CHASO)

— GPIO lock
— Pin configuration lock

• Fan Speed Control and Fan Speed Monitor (FSCM)

— Supports different fan types
— Speed monitoring for two fans

❏ Digital filtering of the tachometer input signal
❏ Alarm for fan slower than programmable thresh-

old speed

❏ Alarm for fan stop

— Two speed control lineswith Pulse Width Modulation

(PWM)

❏ Output signal in the range of 6 Hz to 93.75 KHz
❏ Duty cycle resolution of 1/256

• 49 General-Purpose I/O (GPIO) Ports

— 37 standard, with Assert IRQ/

SMI/PWUREQ for 23

ports

— 12 V

SB

-powered

— Programmable drive type for each output pin (open-

drain, push-pull or output disable)

— Programmable option for internal pull-up resistor on

each input pin

— Output lock option
— Input debounce mechanism

• LPC System Interface

— Synchronous cycles, up to 33 MHz bus clock
— 8-bit I/O cycles
— Up to four DMA channels
— 8-bit DMA cycles
— Basic read, write and DMA bus cycles are 13 clock

cycles long

• PC99 and ACPI Compliant

— PnP Configuration Register structure
— Flexible resource allocation for all logical devices

❏ Relocatable base address
❏ 15 IRQ routing options

❏ 4 optional 8-bit DMA channels (where applicable)

• Floppy Disk Controller (FDC)

— Programmable write protect
— FM and MFM mode support
— Enhanced mode command for three-mode Floppy

Disk Drive (FDD) support

— Perpendicular recording drive support for 2.88 MB
— Burst and non-burst modes
— Full support for IBM Tape Drive register (TDR) im-

plementation of AT and PS/2 drive types

— 16-byte FIFO
— Software compatible with the PC8477, which con-

tains a superset of the FDC functions in the
µDP8473, the NEC µPD765A and the N82077

— High-performance, digital separator
— Standard 5.25” and 3.5” FDD support

• Parallel Port

— Software or hardware control
— Enhanced Parallel Port (EPP) compatible with new

version EPP 1.9 and IEEE 1284 compliant

— EPPsupportforversion EPP 1.7 of the Xircom spec-

ification

— EPPsupportas mode 4 of the Extended Capabilities

Port (ECP)

— IEEE 1284 compliant ECP, including level 2
— Selection of internal pull-up or pull-down resistor for

Paper End (PE) pin

— PCI bus utilization reduction by supporting a de-

mand DMA mode mechanism and a DMA fairness
mechanism

— Protection circuit that preventsdamage to the paral-

lel port when a printer connected to it powers up or
is operated at high voltages, even if the device is in
power-down

— Output buffers that can sink and source 14 mA

• Serial Port 1 (SP1)

— Software compatible with the 16550A and the 16450
— Shadowregister supportforwrite-only bit monitoring
— UART data rates up to 1.5 Mbaud

• Serial Port 2 with Infrared (SP2)

— Software compatible with the 16550A and the 16450
— Shadowregister supportforwrite-only bit monitoring
— UART data rates up to 1.5 Mbaud
— HP-SIR
— ASK-IR option of SHARP-IR
— DASK-IR option of SHARP-IR
— Consumer Remote Control supports RC-5, RC-6,

NEC, RCA and RECS 80

— Non-standard DMA support − 1 or 2 channels
— PnP dongle support

• Keyboard and Mouse Controller (KBC)

— 8-bit microcontroller
— Software compatible with the 8042AH and PC87911

microcontrollers

— 2 KB custom-designed program ROM

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Features (Continued)

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— 256 bytes RAM for data
— Five programmable dedicated open-drain I/O lines
— Two data registers and one status register during

normal operation

— Support for both interrupt and polling
— 93 instructions
— 8-bit timer/counter
— Support for binary and BCD arithmetic
— Operationat 8 MHz,12 MHzor 16 MHz (programma-

ble option)

— Can be customizedby using the PC87323, which in-

cludes a RAM-based KBC as a development plat­form for KBC code

• ACCESS.bus Interface (ACB)

— Serial interface compatible with physical layer
— Compatible with Philips’ I2C

®

— ACB master and slave
— Supports polling and interrupt controlled operation
— Optional internal pull-up on SDA and SCL pins

• WATCHDOG Timer

— Times out the system based on user-programmable

time-out period

— System power-down capability for power saving
— User-defined trigger events to restart WATCHDOG
— Optional routing of WATCHDOG output on IRQ

and/or SMI lines

• System Wake-Up Control (SWC)

— Power-up request upon detection of Keyboard,

Mouse, RI1, RI2, RING activity and General-Pur­pose Input Events, as follows:

❏ Preprogrammed Keyboard or Mouse sequence
❏ External modem ring on serial port
❏ Ring pulse or pulse train on the

RING input signal

❏ Preprogrammed CEIR address in a preselected

standard (NEC, RCA or RC-5)

❏ General-Purpose Input Events
❏ IRQs of internal logical devices

— Optional routing of power-up request on IRQ, SMI

and/or

PWBTOUT

— Battery-backed event configuration
— Programmable VSB-powered output for blinking

LEDs (LED1, LED2) control

• Clock Sources

— 48 MHz clock input
— LPC clock, up to 33 MHz
— On-chip low frequency clock generator for wake-up

• Power Supplies

— 3.3V supply operation
— Main (V

DD

)

— Standby (V

SB

)

— Battery backup (V

BAT

)

— All pins are 5V tolerant and back-drive protected, ex-

cept LPC bus pins

• Strap Configuration

— Base Address (BADDR) strap to determine the base

address of the Index-Data register pair

— Test strap to force the device into test mode (re-

served for National Semiconductor use)

— Power Supply and LED Configuration (PSLDC0,1)

straps to determine the power suppy control func­tions and the V

SB

power-up defaults of LED2

— Power Supply On Polarity (PSONPOL) strap to set

PSON active state and output type

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Datasheet Revision Record

Revision Date Status Comments

November 1998 Draft 0.1 Specifcation subject to change without notice

January 1999 Preliminary 1.0

Specification subject to change without notice; Power
Supply Control and LED sections in Chapter 2 are
incomplete

Item Topic Change/Correction Location

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Table of Contents

Datasheet Revision Record....................................................................................................................4

1.0 Signal/Pin Connection and Description

1.1 CONNECTION DIAGRAM .........................................................................................................13

1.2 BUFFER TYPES AND SIGNAL/PIN DIRECTORY ....................................................................14

1.3 PIN MULTIPLEXING .................................................................................................................19

1.4 DETAILED SIGNAL/PIN DESCRIPTIONS ................................................................................21

1.4.1 ACCESS.bus Interface (ACB) ....................................................................................21

1.4.2 Bus Interface ...............................................................................................................21

1.4.3 Clock ............................................................................................................................21

1.4.4 Fan Speed Control and Monitor (FSCM) .....................................................................21

1.4.5 Floppy Disk Controller (FDC) ......................................................................................22

1.4.6 Game Port ..................................................................................................................23

1.4.7 General-Purpose Input/Output (GPIO) Ports ...............................................................23

1.4.8 Infrared (IR) .................................................................................................................23

1.4.9 Keyboard and Mouse Controller (KBC) .....................................................................24

1.4.10 Musical Instrument Digital Interface (MIDI) Port ..........................................................24

1.4.11 Parallel Port ...............................................................................................................25

1.4.12 Power and Ground .....................................................................................................26

1.4.13 Protection ....................................................................................................................26

1.4.14 Serial Port 1 and Serial Port 2 .....................................................................................26

1.4.15 Strap Configuration ......................................................................................................27

1.4.16 System Wake-Up Control ............................................................................................27

1.4.17 WATCHDOG Timer (WDT) .........................................................................................28

1.5 INTERNAL PULL-UP AND PULL-DOWN RESISTORS ............................................................29

2.0 Device Architecture and Configuration

2.1 OVERVIEW ...............................................................................................................................31

2.2 CONFIGURATION STRUCTURE AND ACCESS .....................................................................31

2.2.1 The Index-Data Register Pair ......................................................................................31

2.2.2 Banked Logical Device Registers Structure ................................................................33

2.2.3 Standard Logical Device Configuration Register Definitions .......................................34

2.2.4 Standard Configuration Registers ...............................................................................36

2.2.5 Default Configuration Setup ........................................................................................37

2.2.6 Power States ...............................................................................................................37

2.2.7 Address Decoding .......................................................................................................38

2.3 PROTECTION ...........................................................................................................................38

2.3.1 Chassis Intrusion Detection .........................................................................................38

2.3.2 Pin Configuration Lock ................................................................................................38

2.3.3 GPIO Pin Function Lock ..............................................................................................39

2.4 POWER SUPPLY CONTROL (PSC) .........................................................................................39

2.5 LED OPERATION AND STATES ..............................................................................................41

2.6 POWER SUPPLY CONTROL AND LED CONFIGURATION ....................................................41

2.7 REGISTER TYPE ABBREVIATIONS ........................................................................................42

Table of Contents (Continued)

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2.8 SUPERI/O CONFIGURATION REGISTERS .............................................................................42

2.8.1 SuperI/O ID Register (SID) ..........................................................................................43

2.8.2 SuperI/O Configuration 1 Register (SIOCF1) ..............................................................43

2.8.3 SuperI/O Configuration 2 Register (SIOCF2) ..............................................................44

2.8.4 SuperI/O Configuration 3 Register (SIOCF3) ..............................................................45

2.8.5 SuperI/O Configuration 4 Register (SIOCF4) ..............................................................46

2.8.6 SuperI/O Configuration 5 Register (SIOCF5) ..............................................................47

2.8.7 SuperI/O Revision ID Register (SRID) ........................................................................47

2.8.8 SuperI/O Configuration 8 Register (SIOCF8) ..............................................................48

2.8.9 SuperI/O Configuration A Register (SIOCFA) .............................................................49

2.8.10 SuperI/O Configuration B Register (SIOCFB) .............................................................50

2.8.11 SuperI/O Configuration C Register (SIOCFC) .............................................................51

2.8.12 SuperI/O Configuration D Register (SIOCFD) .............................................................52

2.9 FLOPPY DISK CONTROLLER (FDC) CONFIGURATION ........................................................53

2.9.1 General Description .....................................................................................................53

2.9.2 Logical Device 0 (FDC) Configuration .........................................................................53

2.9.3 FDC Configuration Register ........................................................................................54

2.9.4 Drive ID Register .........................................................................................................55

2.10 PARALLEL PORT CONFIGURATION ......................................................................................56

2.10.1 General Description .....................................................................................................56

2.10.2 Logical Device 1 (PP) Configuration ............................................................................57

2.10.3 Parallel Port Configuration Register ............................................................................57

2.11 SERIAL PORT 2 CONFIGURATION .........................................................................................58

2.11.1 General Description .....................................................................................................58

2.11.2 Logical Device 2 (SP2) Configuration ..........................................................................58

2.11.3 Serial Port 2 Configuration Register ............................................................................58

2.12 SERIAL PORT 1 CONFIGURATION .........................................................................................59

2.12.1 Logical Device 3 (SP1) Configuration ..........................................................................59

2.12.2 Serial Port 1 Configuration Register ............................................................................59

2.13 SYSTEM WAKE-UP CONTROL (SWC) CONFIGURATION .....................................................60

2.13.1 Logical Device 4 (SWC) Configuration ........................................................................60

2.14 KEYBOARD AND MOUSE CONTROLLER (KBC) CONFIGURATION .....................................61

2.14.1 General Description .....................................................................................................61

2.14.2 Logical Devices 5 and 6 (Mouse and Keyboard) Configuration ..................................62

2.14.3 KBC Configuration Register ........................................................................................63

2.15 GENERAL-PURPOSE INPUT/OUTPUT (GPIO) PORTS CONFIGURATION ..........................64

2.15.1 General Description .....................................................................................................64

2.15.2 Implementation ............................................................................................................64

2.15.3 Logical Device 7 (GPIO) Configuration .......................................................................65

2.15.4 GPIO Pin Select Register ............................................................................................66

2.15.5 GPIO Pin Configuration Register .................................................................................67

2.15.6 GPIO Event Routing Register ......................................................................................68

2.16 ACCESS.BUS INTERFACE (ACB) CONFIGURATION ............................................................69

2.16.1 General Description .....................................................................................................69

2.16.2 Logical Device 8 (ACB) Configuration .........................................................................69

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2.16.3 ACB Configuration Register ........................................................................................70

2.17 FAN SPEED CONTROL AND MONITOR (FSCM) CONFIGURATION .....................................71

2.17.1 General Description .....................................................................................................71

2.17.2 Logical Device 9 (FSCM) Configuration ......................................................................71

2.17.3 Fan Speed Control and Monitor Configuration 1 Register ...........................................72

2.18 WATCHDOG TIMER (WDT) CONFIGURATION ......................................................................73

2.18.1 Logical Device 10 (WDT) Configuration ......................................................................73

2.18.2 WATCHDOG Timer Configuration Register ................................................................73

2.19 GAME PORT (GMP) CONFIGURATION ..................................................................................74

2.19.1 Logical Device 11 (GMP) Configuration ......................................................................74

2.19.2 Game Port Configuration Register ..............................................................................74

2.20 MIDI PORT (MIDI) CONFIGURATION ......................................................................................75

2.20.1 Logical Device 12 (MIDI) Configuration .......................................................................75

2.20.2 MIDI Port Configuration Register .................................................................................75

3.0 System Wake-Up Control (SWC)

3.1 OVERVIEW ...............................................................................................................................76

3.2 FUNCTIONAL DESCRIPTION ..................................................................................................77

3.3 EVENT DETECTION .................................................................................................................78

3.3.1 Modem Ring ................................................................................................................78

3.3.2 Telephone Ring ...........................................................................................................78

3.3.3 Keyboard and Mouse Activity ......................................................................................79

3.3.4 CEIR Address ..............................................................................................................79

3.3.5 Standby General-Purpose Input Events ......................................................................79

3.3.6 GPIO-Triggered Events ...............................................................................................79

3.3.7 Software Event ............................................................................................................79

3.3.8 Module IRQ Wake-Up Event .......................................................................................80

3.4 SWC REGISTERS .....................................................................................................................80

3.4.1 SWC Register Map ......................................................................................................80

3.4.2 Wake-Up Events Status Register 0 (WK_STS0) .........................................................83

3.4.3 Wake-Up Events Status Register (WK_STS1) ............................................................84

3.4.4 Wake-Up Events Enable Register (WK_EN0) .............................................................85

3.4.5 Wake-Up Events Enable Register 1 (WK_EN1) ..........................................................86

3.4.6 Wake-Up Configuration Register (WK_CFG) ..............................................................87

3.4.7 Wake-Up Events Routing to SMI Enable Register 0 (WK_SMIEN0) ...........................88

3.4.8 Wake-Up Events Routing to SMI Enable Register 1 (WK_SMIEN1) ...........................89

3.4.9 Wake-Up Events Routing to IRQ Enable Register 0 (WK_IRQEN0) ...........................90

3.4.10 Wake-Up Events Routing to IRQ Enable Register 1 (WK_IRQEN1) ...........................91

3.4.11 Wake-Up Extension 1 Enable Register 0 (WK_X1EN0) ..............................................92

3.4.12 Wake-Up Extension 1 Enable Register 1 (WK_X1EN1) ..............................................93

3.4.13 Wake-Up Extension 2 Enable Register 0 (WK_X2EN0) ..............................................94

3.4.14 Wake-Up Extension 2 Enable Register 1 (WK_X2EN1) ..............................................95

3.4.15 Wake-Up Extension 3 Enable Register 0 (WK_X3EN0) ..............................................96

3.4.16 Wake-Up Extension 3 Enable Register 1 (WK_X3EN1) ..............................................97

3.4.17 PS/2 Keyboard and Mouse Wake-Up Events ..............................................................98

Table of Contents (Continued)

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3.4.18 PS/2 Protocol Control Register (PS2CTL) ...................................................................99

3.4.19 Keyboard Data Shift Register (KDSR) .........................................................................99

3.4.20 Mouse Data Shift Register (MDSR) ...........................................................................100

3.4.21 PS/2 Keyboard Key Data Registers (PS2KEY0 - PS2KEY7) ....................................100

3.4.22 CEIR Wake-Up Control Register (IRWCR) ...............................................................101

3.4.23 CEIR Wake-Up Address Register (IRWAD) ..............................................................102

3.4.24 CEIR Wake-Up Address Mask Register (IRWAM) ....................................................102

3.4.25 CEIR Address Shift Register (ADSR) ........................................................................103

3.4.26 CEIR Wake-Up Range 0 Registers ...........................................................................103

3.4.27 CEIR Wake-Up Range 1 Registers ...........................................................................104

3.4.28 CEIR Wake-Up Range 2 Registers ...........................................................................104

3.4.29 CEIR Wake-Up Range 3 Registers ...........................................................................105

3.4.30 Standby General-Purpose I/O (SBGPIO) Register Overview ....................................106

3.4.31 Standby GPIO Pin Select Register (SBGPSEL) ........................................................109

3.4.32 Standby GPIO Pin Configuration Register (SBGPCFG) ...........................................110

3.4.33 Standby GPIOE/GPIE Data Out Register 0 (SB_GPDO0) ........................................112

3.4.34 Standby GPIOE/GPIE Data In Register 0 (SB_GPDI0) ............................................112

3.4.35 Standby GPOS Data Out Register 1 (SB_GPDO1) ..................................................113

3.4.36 Standby GPIS Data In Register 1 (SB_GPDI1) .........................................................113

3.5 SWC REGISTER BITMAP .......................................................................................................114

4.0 Fan Speed Control

4.1 OVERVIEW .............................................................................................................................118

4.2 FUNCTIONAL DESCRIPTION ................................................................................................118

4.3 FAN SPEED CONTROL REGISTERS ....................................................................................119

4.3.1 Fan Speed Control Register Map ..............................................................................119

4.3.2 Fan Speed Control Pre-Scale Register (FCPSR) ......................................................119

4.3.3 Fan Speed Control Duty Cycle Register (FCDCR) ....................................................120

4.4 FAN SPEED CONTROL BITMAP ...........................................................................................120

5.0 Fan Speed Monitor

5.1 OVERVIEW .............................................................................................................................121

5.2 FUNCTIONAL DESCRIPTION ................................................................................................121

5.3 FAN SPEED MONITOR REGISTERS .....................................................................................122

5.3.1 Fan Speed Monitor Register Map ..............................................................................122

5.3.2 Fan Monitor Threshold Register (FMTHR) ................................................................123

5.3.3 Fan Monitor Speed Register (FMSPR) ......................................................................123

5.3.4 Fan Monitor Control and Status Register (FMCSR) ..................................................123

5.4 FAN SPEED MONITOR BITMAP ............................................................................................124

6.0 General-Purpose Input/Output (GPIO) Port

6.1 OVERVIEW .............................................................................................................................125

6.2 BASIC FUNCTIONALITY ........................................................................................................126

6.2.1 Configuration Options ................................................................................................126

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6.2.2 Operation ...................................................................................................................126

6.3 EVENT HANDLING AND SYSTEM NOTIFICATION ..............................................................127

6.3.1 Event Configuration ...................................................................................................127

6.3.2 System Notification ....................................................................................................127

6.4 GPIO PORT REGISTERS .......................................................................................................128

6.4.1 GPIO Pin Configuration (GPCFG) Register ..............................................................129

6.4.2 GPIO Pin Event Routing (GPEVR) Register .............................................................130

6.4.3 GPIO Port Runtime Register Map .............................................................................130

6.4.4 GPIO Data Out Register (GPDO) ..............................................................................131

6.4.5 GPIO Data In Register (GPDI) ..................................................................................131

6.4.6 GPIO Event Enable Register (GPEVEN) ..................................................................132

6.4.7 GPIO Event Status Register (GPEVST) ....................................................................132

7.0 WATCHDOG Timer (WDT)

7.1 OVERVIEW .............................................................................................................................133

7.2 FUNCTIONAL DESCRIPTION ................................................................................................133

7.3 WATCHDOG TIMER REGISTERS .........................................................................................134

7.3.1 WATCHDOG Timer Register Map .............................................................................134

7.3.2 WATCHDOG Timeout Register (WDTO) ..................................................................134

7.3.3 WATCHDOG Mask Register (WDMSK) ....................................................................135

7.3.4 WATCHDOG Status Register (WDST) ......................................................................136

7.4 WATCHDOG TIMER REGISTER BITMAP .............................................................................136

8.0 ACCESS.bus Interface (ACB)

8.1 OVERVIEW .............................................................................................................................137

8.2 FUNCTIONAL DESCRIPTION ................................................................................................137

8.2.1 Data Transactions .....................................................................................................137

8.2.2 Start and Stop Conditions ..........................................................................................137

8.2.3 Acknowledge (ACK) Cycle ........................................................................................138

8.2.4 Acknowledge after Every Byte Rule ..........................................................................139

8.2.5 Addressing Transfer Formats ....................................................................................139

8.2.6 Arbitration on the Bus ................................................................................................139

8.2.7 Master Mode ..............................................................................................................140

8.2.8 Slave Mode ................................................................................................................142

8.2.9 Configuration .............................................................................................................142

8.3 ACB REGISTERS ....................................................................................................................143

8.3.1 ACB Register Map .....................................................................................................143

8.3.2 ACB Serial Data Register (ACBSDA) ........................................................................143

8.3.3 ACB Status Register (ACBST) ..................................................................................144

8.3.4 ACB Control Status Register (ACBCST) ...................................................................145

8.3.5 ACB Control Register 1 (ACBCTL1) ..........................................................................146

8.3.6 ACB Own Address Register (ACBADDR) .................................................................147

8.3.7 ACB Control Register 2 (ACBCTL2) ..........................................................................147

8.4 ACB REGISTER BITMAP ........................................................................................................148

Table of Contents (Continued)

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9.0 Game Port (GMP)

9.1 OVERVIEW .............................................................................................................................149

9.2 FUNCTIONAL DESCRIPTION ................................................................................................149

9.2.1 Game Device Axis Position Indication .......................................................................149

9.2.2 Capturing the Position ...............................................................................................150

9.2.3 Button Status Indication .............................................................................................151

9.2.4 Operation Modes .......................................................................................................151

9.2.5 Operation Control ......................................................................................................152

9.3 GAME PORT REGISTERS .....................................................................................................153

9.3.1 Game Port Register Map ...........................................................................................153

9.3.2 Game Port Control Register (GMPCTL) ....................................................................154

9.3.3 Game Port Legacy Status Register (GMPLST) .........................................................155

9.3.4 Game Port Extended Status Register (GMPXST) .....................................................156

9.3.5 Game Port Interrupt Enable Register (GMPIEN) .......................................................157

9.3.6 Game Device A X-Axis Position Low Byte (GMPAXL) ..............................................158

9.3.7 Game Device A X-Axis Position High Byte (GMPAXH) .............................................158

9.3.8 Game Device A YAxis Position Low Byte (GMPAYL) ...............................................158

9.3.9 Game Device A Y-Axis Position High Byte (GMPAYH) .............................................158

9.3.10 Game Device B X-Axis Position Low Byte (GMPBXL) ..............................................159

9.3.11 Game Device B X-Axis Position High Byte (GMPBXH) .............................................159

9.3.12 Game Device B Y-Axis Position Low Byte (GMPBYL) ..............................................159

9.3.13 Game Device B Y-Axis Position High Byte (GMPBYH) .............................................159

9.3.14 Game Port Event Polarity Register (GMPEPOL) ......................................................160

9.4 GAME PORT BITMAP .............................................................................................................161

10.0 Musical Instrument Digital Interface (MIDI) Port

10.1 OVERVIEW .............................................................................................................................162

10.2 FUNCTIONAL DESCRIPTION ................................................................................................162

10.2.1 Internal Bus Interface Unit .........................................................................................163

10.2.2 Port Control and Status Registers .............................................................................163

10.2.3 Data Buffers and FIFOs .............................................................................................163

10.2.4 MIDI Communication Engine .....................................................................................163

10.2.5 MIDI Signals Routing Control Logic ...........................................................................164

10.2.6 Operation Modes .......................................................................................................164

10.2.7 MIDI Port Status Flags ..............................................................................................165

10.2.8 MIDI Port Interrupts ...................................................................................................166

10.2.9 Enhanced MIDI Port Features ...................................................................................167

10.3 MIDI PORT REGISTERS ........................................................................................................168

10.3.1 MIDI Port Register Map .............................................................................................168

10.3.2 MIDI Data In Register (MDI) ......................................................................................168

10.3.3 MIDI Data Out Register (MDO) .................................................................................168

10.3.4 MIDI Status Register (MSTAT) ..................................................................................169

10.3.5 MIDI Command Register (MCOM) ............................................................................169

10.3.6 MIDI Control Register (MCNTL) ................................................................................170

10.4 MIDI PORT BITMAP ................................................................................................................171

Table of Contents (Continued)

11

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11.0 Legacy Functional Blocks

11.1 KEYBOARD AND MOUSE CONTROLLER (KBC) ..................................................................172

11.1.1 General Description ...................................................................................................172

11.1.2 KBC Register Map .....................................................................................................172

11.1.3 KBC Bitmap Summary ...............................................................................................172

11.2 FLOPPY DISK CONTROLLER (FDC) .....................................................................................173

11.2.1 General Description ...................................................................................................173

11.2.2 FDC Register Map .....................................................................................................173

11.2.3 FDC Bitmap Summary ...............................................................................................174

11.3 PARALLEL PORT ....................................................................................................................175

11.3.1 General Description ...................................................................................................175

11.3.2 Parallel Port Register Map .........................................................................................175

11.3.3 Parallel Port Bitmap Summary ..................................................................................176

11.4 UART FUNCTIONALITY (SP1 AND SP2) ...............................................................................178

11.4.1 General Description ...................................................................................................178

11.4.2 UART Mode Register Bank Overview .......................................................................178

11.4.3 SP1 and SP2 Register Maps for UART Functionality ................................................179

11.4.4 SP1 and SP2 Bitmap Summary for UART Functionality ...........................................181

11.5 IR FUNCTIONALITY (SP2) .....................................................................................................183

11.5.1 General Description ...................................................................................................183

11.5.2 IR Mode Register Bank Overview .............................................................................183

11.5.3 SP2 Register Map for IR Functionality ......................................................................184

11.5.4 SP2 Bitmap Summary for IR Functionality ................................................................185

12.0 Device Characteristics

12.1 GENERAL DC ELECTRICAL CHARACTERISTICS ...............................................................187

12.1.1 Recommended Operating Conditions .......................................................................187

12.1.2 Absolute Maximum Ratings .......................................................................................187

12.1.3 Capacitance ..............................................................................................................187

12.1.4 Power Consumption under Recommended Operating Conditions ............................188

12.2 DC CHARACTERISTICS OF PINS, BY I/O BUFFER TYPES ................................................188

12.2.1 Input, CMOS Compatible ...........................................................................................188

12.2.2 Input, PCI 3.3V ..........................................................................................................188

12.2.3 Input, SMBus Compatible ..........................................................................................189

12.2.4 Input, Strap Pin ..........................................................................................................189

12.2.5 Input, TTL Compatible ...............................................................................................189

12.2.6 Input, TTL Compatible with Schmitt Trigger ..............................................................189

12.2.7 Output, PCI 3.3V .......................................................................................................190

12.2.8 Output, Totem-Pole Buffer .........................................................................................190

12.2.9 Output, Open-Drain Buffer .........................................................................................190

12.2.10 Exceptions .................................................................................................................190

12.3 INTERNAL RESISTORS .........................................................................................................191

12.3.1 Pull-Up Resistor .........................................................................................................191

12.3.2 Pull-Down Resistor ....................................................................................................191

Table of Contents (Continued)

12

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12.4 AC ELECTRICAL CHARACTERISTICS ..................................................................................192

12.4.1 AC Test Conditions ....................................................................................................192

12.4.2 Clock Timing ..............................................................................................................192

12.4.3 LCLK and LRESET ....................................................................................................193

12.4.4 LPC and SERIRQ Signals .........................................................................................194

12.4.5 Serial Port, Sharp-IR, SIR and Consumer Remote Control Timing ...........................195

12.4.6 Modem Control Timing ..............................................................................................196

12.4.7 FDC Write Data Timing .............................................................................................196

12.4.8 FDC Drive Control Timing .........................................................................................197

12.4.9 FDC Read Data Timing .............................................................................................197

12.4.10 Standard Parallel Port Timing ....................................................................................198

12.4.11 Enhanced Parallel Port Timing ..................................................................................198

12.4.12 Extended Capabilities Port (ECP) Timing ..................................................................199

13

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1.0 Signal/Pin Connection and Description

1.1 CONNECTION DIAGRAM

Plastic Quad Flatpack (PQFP), JEDEC

xxx = Three character identifier for National data, and keyboard ROM and/or customer identification code

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

109

110

111

112

113

114

115

116

117

118

119

120

121

122

123

124

125

126

127

128

59585756555453525150494847464544424140

39

PC87363-xxx/VLA

PD7

VSS

VBAT

MTR0

SLCT

DIR

STEP

WDATA

DRATE0

TRK0

PE

WGATE

RDATA

WP

DENSEL

INDEX

GPIO17/

DR1/IRSL3

636261

60

43

64

65
66
67

68
69
70

71
72

73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100

101
102

103

104

105

106

107

108

31

32

33

34

35

36

37

38

VDD

VSB

PWUREQ

GPIO16/MTR1/IRSL2

DR0

GPIO34

GPIO01/FANOUT1

BUSY_WAIT

HDSEL

DSKCHG

ACK

ERR

AFD_DSTRB

PD1

STB_WRITE

INIT

PD6
PD5

PD4
PD3

SLIN_ASTRB

PD2

VSS

PD0

GPIO00/FANIN1

GPIO33

VDD

VSS

VDD

VSS

VDD

CHASI

Note 1.

GPIOE1

GPIOE2/LED1

LAD1

LAD3

LAD2

LRESET

LCLK

LFRAME

LAD0

LDRQ
SERIRQ

GPIO32/P16/IRSL1

DTR1_BOUT1/BADDR

RI1

DCD1

SOUT1/PSLDC0

DSR1

SIN1

RTS1/TEST

CTS1

DTR2_BOUT2/PSONPOL

RI2

DCD2

SOUT2/PSLDC1

DSR2

SIN2

RTS2

CTS2

GPIO13/SDA

GPIO14/

WDO

KBDAT

KBCLK

MCLK

MDAT

KBRST/GPIO06

GA20/GPIO07

Order Number PC87363-xxx/VLA

See NS Package Number VLA128A

GPIOE3/LED2

GPIOE5/

CHASO

GPIO03/FANOUT0

GPIO02/FANIN0

GPIE6/IRRX2_IRSL0

GPIE7/IRRX1

GPO15/IRTX

GPIO10/SMI

GPIOE4/

RING

GPIO05/P17
GPIO04/P12

GPIO11

GPIO12/SCL

CLKIN

GPIOE0

GPIO27/JOYBBTN1

GPIO25/JOYBY

GPIO26/JOYBBTN0

GPIO24/JOYBX

GPIO23/JOYABTN1

GPIO21/JOYAY

GPIO22/JOYABTN0

GPIO20/JOYAX

GPIO30/MDTX

GPIO31/MDRX

NC

GPIO43

GPIO42

GPIO47

GPIO46

GPIO45

GPIO44

GPIO41

GPIO40

NC

NC

NC

NC

SLPS5

PSON

/GPOS1

PWBTOUT/GPOS0

PWBTIN/GPIS2

SLPS3/GPIS3

Note 1. For correct operation, this pin must be tied to VSS when not used.

1.0 Signal/Pin Connection and Description (Continued)

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1.2 BUFFER TYPES AND SIGNAL/PIN DIRECTORY

Table 2 is an alphabetical list of all signals, cross-referenced to additional information for detailed functional descriptions,
electrical DC characteristics, and pin multiplexing. The signal DC characteristics are denoted by a buffer type symbol, de­scribed briefly below and in further detail in Section 12.2. The pin multiplexing information refers to two different types of
multiplexing:

●

MUX - Multiplexed, denoted by a slash (/) between pins in the diagram in Section 1.1. Pins are shared between two
different functions. Each function is associated with different board connectivity, and normally, the function selection
is determined by the board design and cannot be changed dynamically. The multiplexing options must be configured
by the BIOS upon power-up, in order to comply with the board implementation.

●

MM - Multiple Mode, denoted by an underscore (_) between pins in the diagram in Section 1.1. Pins have two or
more modes of operation within the same function. These modes are associated with the same external (board) con­nectivity. Mode selection may be controlled by the device driver, through the registers of the functional block, and do
not require a special BIOS setup upon power-up. These pins are not considered multiplexed pins from the SuperI/O
configuration perspective. The mode selection method (registers and bits) as well as the signal specification in each
mode, are described within the functional description of the relevant functional block.

Table 2. SIgnal/Pin Directory

Table 1. Buffer Types

Symbol Description

IN

C

Input, CMOS compatible

IN

PCI

Input, PCI 3.3V

IN

SM

Input, SMBus compatible

IN

STRP

Input, Strap pin with weak pull-down during strap time

IN

T

Input, TTL compatible

IN

TS

Input, TTL compatible with Schmidt Trigger

IN

ULR

Input, with serial UL Resistor

O

PCI

Output, PCI 3.3V

O

p/n

Output, push-pull buffer that is capable of sourcingpmA and sinkingn mA

OD

n

Output, open-drain output buffer that is capable of sinkingn mA
PWR Power pin
GND Ground pin

Signal Pin(s)

Functional Group DC Characteristics

MUX

Name Section Buffer Type Section

ACK 79 Parallel Port 1.4.11

IN

T

12.2.5

AFD_DSTRB 93 Parallel Port 1.4.11

OD

14,O14/14

12.2.9, 12.2.8 MM
ASTRB See SLIN_ASTRB
BADDR 101 Strap Configuration 1.4.15

IN

STRP

12.2.4 MUX
BOUT1 See

DTR1_BOUT1

BOUT2 See

DTR2_BOUT2

BUSY_

WAIT 78 Parallel Port 1.4.11

IN

T

12.2.5 MM
CHASI 29 Protection 1.4.13

IN

C

12.2.1
CHASO 28 Protection 1.4.13

OD

6

12.2.9 MUX

1.0 Signal/Pin Connection and Description (Continued)

15

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CLKIN 22 Clock 1.4.3

IN

T

12.2.5
CTS1 100 Serial Port 1 1.4.14

IN

TS

12.2.6
CTS2 108 Serial Port 2 1.4.14

IN

TS

12.2.6
DCD1 95 Serial Port 1 1.4.14

IN

TS

12.2.6
DCD2 103 Serial Port 2 1.4.14

IN

TS

12.2.6
DENSEL 75 FDC 1.4.5

O

2/12

12.2.8
DIR 68 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8
DR0 70 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8
DR1 71 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8 MUX
DRATE0 74 FDC 1.4.5

O

3/6

12.2.8
DSKCHG 60 FDC 1.4.5

IN

T

12.2.5
DSR1 96 Serial Port 1 1.4.14

IN

TS

12.2.6
DSR2 104 Serial Port 2 1.4.14

IN

TS

12.2.6
DSTRB See AFD_DSTRB
DTR1_BOUT1 101 Serial Port 1 1.4.14

O

3/6

12.2.8 MUX, MM
DTR2_BOUT2 109 Serial Port 2 1.4.14

O

3/6

12.2.8 MUX, MM
ERR 91 Parallel Port 1.4.11

IN

T

12.2.5
FANIN0 4 Fan Speed 1.4.4

IN

TS

12.2.6 MUX
FANIN1 2 Fan Speed 1.4.4

IN

TS

12.2.6 MUX
FANOUT0 5 Fan Speed 1.4.4

O

2/14

12.2.8 MUX
FANOUT1 3 Fan Speed 1.4.4

O

2/14

12.2.8 MUX
GA20 (P21) 9 KBC 1.4.9

IN

T

,OD

2

12.2.5, 12.2.9 MUX
GPIE6-7 58-59 System Wake-Up 1.4.16

IN

TS

12.2.6 MUX
GPIO00-07 2-9 GPIO Port 1.4.7

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8 MUX
GPIO10

GPIO11-14
GPO15
GPIO16-17

21
53-56
57
69, 71

GPIO Port 1.4.7

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8 MUX

GPIO20-27 117-124 GPIO Port 1.4.7

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8 MUX
GPIO30-33

GPIO34

125-128
1

GPIO Port 1.4.7

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8 MUX

GPIO40-47 43-50 GPIO Port 1.4.7

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8
GPIOE0-1 23-24 System Wake-Up 1.4.16

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8
GPIOE2-5 25-28 System Wake-Up 1.4.16

IN

TS

,OD6,O

3/6

12.2.6, 12.2.9, 12.2.8 MUX
GPIS2-3 35-36 System Wake-Up 1.4.16

IN

TS

12.2.6 MUX
GPOS0-1 33-34 System Wake-Up 1.4.16

OD

6,O3/6

12.2.9, 12.2.8 MUX

Signal Pin(s)

Functional Group DC Characteristics

MUX

Name Section Buffer Type Section

1.0 Signal/Pin Connection and Description (Continued)

16

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HDSEL 61 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8
INDEX 73 FDC 1.4.5

IN

T

12.2.5
INIT 89 Parallel Port 1.4.11

OD

14,O14/14

12.2.9, 12.2.8
IRRX1 59 Infrared 1.4.8

IN

TS

12.2.6

MUX

IRRX2_IRSL0 58 Infrared 1.4.8

INTS,O

3/6

12.2.6, 12.2.8

MUX, MM

IRSL1 127 Infrared 1.4.8

IN

T,O3/6

12.2.5, 12.2.8 MUX
IRSL2 69 Infrared 1.4.8

INT,O

3/6

12.2.5, 12.2.8

MUX

IRSL3 71 Infrared 1.4.8

IN

T

12.2.5

MUX

IRTX 57 Infrared 1.4.8

O

6/12

12.2.8

MUX

JOYABTN0 119 Game Port 1.4.6

IN

TS

12.2.6

MUX

JOYABTN1 120 Game Port 1.4.6

IN

TS

12.2.6

MUX

JOYAX 117 Game Port 1.4.6

IN

TS,OD12

12.2.6, 12.2.9

MUX

JOYAY 118 Game Port 1.4.6

IN

TS,OD12

12.2.6, 12.2.9

MUX

JOYBBTN0 123 Game Port 1.4.6

IN

TS

12.2.6

MUX

JOYBBTN1 124 Game Port 1.4.6

IN

TS

12.2.6

MUX

JOYBX 121 Game Port 1.4.6

IN

TS,OD12

12.2.6, 12.2.9

MUX

JOYBY 122 Game Port 1.4.6

IN

TS,OD12

12.2.6, 12.2.9

MUX

KBCLK 111 KBC 1.4.9

IN

TS

,OD

14

12.2.6, 12.2.9
KBDAT 112 KBC 1.4.9

IN

TS

,OD

14

12.2.6, 12.2.9
KBRST (P20) 8 KBC 1.4.9

IN

TS

,OD

2

12.2.6, 12.2.9

MUX

LAD0-3 15-18 Bus Interface 1.4.2

IN

PCI,OPCI

12.2.2, 12.2.7
LED1, LED2 25, 26 System Wake-Up 1.4.16

O

12/12

12.2.8

MUX

LCLK 11 Bus Interface 1.4.2

IN

PCI

12.2.2
LDRQ 13 Bus Interface 1.4.2

O

PCI

12.2.7
LFRAME 14 Bus Interface 1.4.2

IN

PCI

12.2.2
LRESET 10 Bus Interface 1.4.2

IN

PCI

12.2.2
MCLK 13 KBC 1.4.9

IN

TS

,OD

14

12.2.6, 12.2.9
MDAT 114 KBC 1.4.9

IN

TS

,OD

14

12.2.6, 12.2.9
MDRX 126 MIDI Port 1.4.10

IN

TS

12.2.6

MUX

MDTX 125 MIDI Port 1.4.10

O

3/6

12.2.8

MUX

MTR0 72 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8
MTR1 69 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8

MUX

P12, P16, P17 6,127, 7 KBC 1.4.9

IN

T

,OD

2

12.2.5, 12.2.9

MUX

Signal Pin(s)

Functional Group DC Characteristics

MUX

Name Section Buffer Type Section

1.0 Signal/Pin Connection and Description (Continued)

17

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PD7-5
PD4-3,
PD2, PD1
PD0

80-82
85-86
88, 90
92

Parallel Port 1.4.11

IN

T

,OD14,O

14/14

12.2.5, 12.2.9, 12.2.8

PE 77 Parallel Port 1.4.11

IN

T

12.2.5
PSLDC0 99 Strap Configuration 1.4.15

IN

STRP

12.2.4 MUX
PSLDC1 107 Strap Configuration 1.4.15

IN

STRP

12.2.4 MUX
PSON 34 System Wake-Up 1.4.16

OD

12,O4/4

12.2.9, 12.2.8

MUX

PSONPOL 109 Strap Configuration 1.4.15

IN

STRP

12.2.4 MUX
PWBTIN 35 System Wake-Up 1.4.16

IN

TS

12.2.6

MUX

PWBTOUT 33 System Wake-Up 1.4.16

OD

12

12.2.9

MUX

PWUREQ 32 System Wake-Up 1.4.16

OD

6

12.2.9
RDATA 62 FDC 1.4.5

IN

T

12.2.5
RI1 102 Serial Port 1 1.4.14

IN

TS

12.2.6
RI2 110 Serial Port 2 1.4.14

IN

TS

12.2.6
RING 27 System Wake-Up 1.4.16

IN

TS

12.2.6

MUX

RTS1 98 Serial Port 1 1.4.14

O

3/6

12.2.8

MUX

RTS2 106 Serial Port 2 1.4.14

O

3/6

12.2.8
SCL 54 ACB 1.4.1

IN

T

,OD6,O

3/6

12.2.5, 12.2.9, 12.2.8

MUX

SDA 55 ACB 1.4.1

IN

T

,OD6,O

3/6

12.2.5, 12.2.9, 12.2.8

MUX

SERIRQ 12 Bus Interface 1.4.2

IN

PCI,OPCI

12.2.2, 12.2.7
SIN1 97 Serial Port 1 1.4.14

IN

TS

12.2.6
SIN2 105 Serial Port 2 1.4.14

IN

TS

12.2.6
SLCT 76 Parallel Port 1.4.11

IN

T

12.2.5
SLIN_ASTRB 87 Parallel Port 1.4.11

OD

14,O14/14

12.2.9, 12.2.8

MM

SLPS3,5 36,37 System Wake-Up 1.4.16

IN

TS

12.2.6

MUX

(

SLPS3)

SMI 21 Bus Interface 1.4.2

OD

12

12.2.9

MUX

SOUT1 99 Serial Port 1 1.4.14

O

3/6

12.2.8

MUX

SOUT2 107 Serial Port 2 1.4.14

O

3/6

12.2.8

MUX

STEP 67 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8
STB_WRITE 94 Parallel Port 1.4.11

OD

14,O14/14

12.2.9, 12.2.8

MM

TEST 98 Strap Configuration 1.4.15

IN

STRP

12.2.4

MUX

TRK0 64 FDC 1.4.5

IN

T

12.2.5
V

BAT

30 Power and Ground 1.4.12

IN

ULR

N/A

V

DD

20, 52, 83, 115 Power and Ground 1.4.12 PWR N/A

Signal Pin(s)

Functional Group DC Characteristics

MUX

Name Section Buffer Type Section

1.0 Signal/Pin Connection and Description (Continued)

18

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V

SB

31 Power and Ground 1.4.12 PWR N/A

V

SS

19, 51, 84, 116 Power and Ground 1.4.12 GND N/A
WAIT See BUSY_WAIT
WDATA 66 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8

WDO 56 WATCHDOG 1.4.17

OD

6,O3/6

12.2.9, 12.2.8

MUX

WGATE 65 FDC 1.4.5

OD

12,O2/12

12.2.9, 12.2.8

WP 63 FDC 1.4.5

IN

T

12.2.5

WRITE See STB_WRITE

Signal Pin(s)

Functional Group DC Characteristics

MUX

Name Section Buffer Type Section

1.0 Signal/Pin Connection and Description (Continued)

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1.3 PIN MULTIPLEXING

The multiplexing options and the associated setup configuration for all pins are described in Table 3. A multiplexing option
can be chosen on one pin only per group.

Table 3. Pin Multiplexing Configuration

Pin(s)

Default Alternate

Signal I/O Configuration Signal I/O Configuration

2 GPIO00 I/O SIOCF2, Bit 2 = 0 FANIN1 I SIOCF2, Bit 2 = 1
3 GPIO01 I/O SIOCF2, Bit 3 = 0 FANOUT1 O SIOCF2, Bit 3 = 1
4 GPIO02 I/O SIOCF2, Bit 4 = 0 FANIN0 I SIOCF2, Bit 4 = 1
5 GPIO03 I/O SIOCF2, Bit 5 = 0 FANOUT0 O SIOCF2, Bit 5 = 1
6 GPIO04 I/O SIOCF2, Bit 6 = 0 P12 I/O SIOCF2, Bit 6 = 1
7 GPIO05 I/O SIOCF2, Bit 7 = 0 P17 I/O SIOCF2, Bit 7 = 1
8 KBRST (P20) SIOCF3, Bit 0 = 1 GPIO06 I/O SIOCF3, Bit 0 = 0
9 GA20 (P21) SIOCF3, Bit 1 = 1 GPIO07 I/O SIOCF3, Bit 1 = 0
21 GPIO10 I/O SIOCF3, Bit 2 = 0

SMI O SIOCF3, Bit 2 = 1

25 GPIOE2 I/O

SIOCFA, Bits 2-1 = 00

Note 1.

LED1 O SIOCFA, Bits 2-1 = 01

26 GPIOE3 I/O

SIOCFA, Bit 3 = 0

Note 1.

LED2 O SIOCFA, Bit 3 =1

27 GPIOE4 I/O SIOCFA, Bits 5-4 = 00

RING I SIOCFA, Bits 5-4 = 01

28 GPIOE5 I/O SIOCFA, Bit 6 = 0

CHASO O SIOCFA, Bit 6 =1

33-36

PWBTOUT
PSON
PWBTIN
SLPS3

O
O

I
I

SIOCFA, Bit 7 = 0

Note 1.

GPOS0
GPOS1
GPIS2
GPIS3

0
0

I
I

SIOCFA, Bit 7 = 1

Note 1.

54 GPIO12 I/O SIOCF3, Bit 5 = 0 SCL I/O SIOCF3, Bit 5 = 1
55 GPIO13 I/O SIOCF3, Bit 5 = 0 SDA I/O SIOCF3, Bit 5 = 1
56 GPIO14 I/O SIOCF3, Bit 6 = 0

WDO O SIOCF3, Bit 6 = 1
57 GPO15 O SIOCF3, Bit 7 = 0 IRTX O SIOCF3, Bit 7 = 1
58 GPIE6 I SIOCFB, Bit 0 = 0 IRRX2_IRSL0 I/O SIOCFB, Bit 0 = 1
59 GPIE7 I SIOCFB, Bit 1 = 0 IRRX1 I SIOCFB, Bit 1 = 1
69 GPIO16 I/O SIOCF4, Bits 1-0 = 00

MTR1 O SIOCF4, Bits 1-0 = 01

IRSL2 I/O SIOCF4, Bits 1-0 = 10
71 GPIO17 I/O SIOCF4, Bits 3-2 = 00

DR1 O SIOCF4, Bits 3-2 = 01

IRSL3 I SIOCF4, Bits 3-2 = 10
117 GPIO20 I/O SIOCF4, Bit 4 = 0 JOYAX I/O SIOCF4, Bit 4 = 1
118 GPIO21 I/O SIOCF4, Bit 4 = 0 JOYAY I/O SIOCF4, Bit 4 = 1
119 GPIO22 I/O SIOCF4, Bit 4 = 0 JOYABTN0 I SIOCF4, Bit 4 = 1
120 GPIO23 I/O SIOCF4, Bit 4 = 0 JOYABTN1 I SIOCF4, Bit 4 = 1
121 GPIO24 I/O SIOCF4, Bit 4 = 0 JOYBX I/O SIOCF4, Bit 4 = 1
122 GPIO25 I/O SIOCF4, Bit 4 = 0 JOYBY I/O SIOCF4, Bit 4 = 1
123 GPIO26 I/O SIOCF4, Bit 4 = 0 JOYBBTN0 I SIOCF4, Bit 4 = 1
124 GPIO27 I/O SIOCF4, Bit 4 = 0 JOYBBTN1 I SIOCF4, Bit 4 = 1
125 GPIO30 I/O SIOCF4, Bit 5 = 0 MDTX O SIOCF4, Bit 5 = 1

1.0 Signal/Pin Connection and Description (Continued)

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126 GPIO31 I/O SIOCF4, Bit 5 = 0 MDRX I SIOCF4, Bit 5 = 1

127 GPIO32

I/O

SIOCF4, Bits 7,6 = 00

P16 I/O SIOCF4, Bits 7,6 = 01

IRSL1 I/O SIOCF4, Bits 7,6 = 10

Note 1. The signal selected on each pin is determined during V

SB

power-up by the PSLDC0,1 straps.

Pin(s)

Default Alternate

Signal I/O Configuration Signal I/O Configuration

1.0 Signal/Pin Connection and Description (Continued)

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1.4 DETAILED SIGNAL/PIN DESCRIPTIONS

This section describes all signals, organized in functional groups.

1.4.1 ACCESS.bus Interface (ACB)

1.4.2 Bus Interface

1.4.3 Clock

1.4.4 Fan Speed Control and Monitor (FSCM)

Signal Pin(s) I/O Buffer Type Power Well Description

SCL 54 I/O

IN

SM

/OD

6

V

DD

ACCESS.bus Clock Signal. An internal pull-up is optional,
depending upon the ACCESS.bus configuration register.

SDA 55 I/O

IN

SM

/OD

6

V

DD

ACCESS.bus Data Signal. An internal pull-up is optional,
depending upon the ACCESS.bus configuration register.

Signal Pin(s) I/O Buffer Type Power Well Description

LAD0-3 15-18 I/O

IN

PCI/OPCI

V

DD

LPC Address-Data. Multiplexed command, address bi­directional data and cycle status.

LCLK 11 I

IN

PCI

V

DD

LPC Clock. Practically the PCI clock (up to 33 MHz)

LDRQ 13 O

O

PCI

V

DD

LPC DMA Request. Encoded DMA request for LPC I/F.

LFRAME 14 I

IN

PCI

V

DD

LPC Frame. Low pulse indicates the beginning of new LPC
cycle or termination of a broken cycle.

LRESET 10 I

IN

PCI

V

DD

LPC Reset. Practically the PCI system reset.

SERIRQ 12 I/O

IN

PCI/OPCI

V

DD

Serial IRQ. The interrupt requests are serialized over a single
pin, where each internal IRQ signal is delivered during a
designated time slot.

SMI 21 OD

OD

12

V

DD

System Management Interrupt

Signal Pin(s) I/O Buffer Type Power Well Description

CLKIN 22 I

IN

T

V

DD

Clock In. 48 MHz clock input.

Signal Pin(s) I/O Buffer Type Power Well Description

FANIN0
FANIN1

4
2I

IN

TS

V

DD

Fan Inputs. Used to feed the fan’s tachometer pulse to the Fan
Speed Monitor. The rising edge indicates the completion of a half
(or full) revolution of the fan.

FANOUT0
FANOUT153O

O

2/14

V

DD

Fan Outputs. Pulse Width Modulation (PWM) signals, used to
control the speed of cooling fans by controlling the voltage
supplied to the fan’s motor.

1.0 Signal/Pin Connection and Description (Continued)

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1.4.5 Floppy Disk Controller (FDC)

Signal Pin(s) I/O Buffer Type Power Well Description

DENSEL 75 O

O

2/12

V

DD

Density Select. Indicates that a high FDC density data rate (500
Kbps or 1 Mbps) or a low density data rate (250 or 300 Kbps) is
selected.

DENSEL polarity is controlled by bit 5 of the FDC Configuration
Register.

DIR 68 O

OD

12,O2/12

V

DD

Direction. Determines the direction of the Floppy Disk Drive
(FDD) head movement (active = step in, inactive = step out)
during a seek operation. During reads or writes,

DIR is inactive.

DR0 70 O

OD

12,O2/12

V

DD

Drive Select 0. Decoded drive select output signal. DR0 is
controlled by bit 0 of the Digital Output Register (DOR).

DR1 71 O

OD

12,O2/12

V

DD

Drive Select 1. Decoded drive select output signal. DR0 is
controlled by bit 1 of the Digital Output Register (DOR).

DRATE0 74 O

O

3/6

V

DD

Data Rate 0. Reflects the value of bit 0 of the Configuration Control
Register (CCR) or the Data Rate Select Register (DSR), whichever
was written to last. Output from the pin is push-pull buffered.

DSKCHG 60 I

IN

T

V

DD

Disk Change. Indicates if the drive door has been opened. The
state of this pin is stored in the Digital Input Register (DIR). This pin
can also be configured as the RGATE data separator diagnostic input
signal via the MODE command.

HDSEL 61 O

OD

12,O2/12

V

DD

Head Select. Determines which side of the FDD is accessed.
Active low selects side 1, inactive selects side 0.

INDEX 73 I

IN

T

V

DD

Index. Indicates the beginning of an FDD track.

MTR0 72 O

OD

12,O2/12

V

DD

Motor Select 0. Active low, motor enable line for drives 0, controlled
by bits D7-4 of the Digital Output Register (DOR).

MTR1 69 O

OD

12,O2/12

V

DD

Motor Select 1. Active low, motor enable lines for drives 1,
controlled by bits D7-4 of the Digital Output Register (DOR).

RDATA62 I

IN

T

V

DD

Read Data. Raw serial input data stream read from the FDD.

STEP 67 O

OD

12,O2/12

V

DD

Step. Issues pulses to the disk drive at a software programmable
rate to move the head during a seek operation.

TRK0 64 I

IN

T

V

DD

Track 0. Indicates to the controller that the head of the selected
floppy disk drive is at track 0.

WDATA66 O

OD

12,O2/12

V

DD

Write Data. Carries out the pre-compensated serial data that is
written to the floppy disk drive. Pre-compensation is software
selectable.

WGATE 65 O

OD

12,O2/12

V

DD

Write Gate. Enables the write circuitry of the selected disk drive.
WGATE is designed to prevent glitches during power up and
power down. This prevents writing to the disk when power is
cycled.

WP 63 I

IN

T

V

DD

Write Protected. Indicates that the disk in the selected drive is
write protected. A software programmable configuration bit (FDC
configuration at Index F0h, Logical Device 0) can force an active
write-protect indication to the FDC, regardless of the status of this
pin.

1.0 Signal/Pin Connection and Description (Continued)

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1.4.6 Game Port

1.4.7 General-Purpose Input/Output (GPIO) Ports

1.4.8 Infrared (IR)

Signal Pin(s) I/O Buffer Type Power Well Description

JOYAX 117 I/O

IN

TS

/OD

12

V

DD

Joystick A X-Axis. Indicates X-axis position of joystick A.

JOYAY 118 I/O

INTS/OD

12

V

DD

Joystick A Y-Axis. Indicates Y-axis position of joystick A.

JOYABTN0 119 I

IN

TS

V

DD

Joystick A Button 0. Indicates button 0 status of joystick A.

JOYABTN1 120 I

IN

TS

V

DD

Joystick A Button 1. Indicates button 1 status of joystick A.

JOYBX 121 I/O

INTS/OD

12

V

DD

Joystick B X-Axis. Indicates X-axis position of joystick B.

JOYBY 122 I/O

IN

TS

/OD

12

V

DD

Joystick BY-Axis. Indicates Y-axis position of joystick B.

JOYBBTN0 123 I

IN

TS

V

DD

Joystick B Button 0. Indicates button 0 status of joystick B.

JOYBBTN1 124 I

IN

TS

V

DD

Joystick B Button 1. Indicates button 1 status of joystick B.

Signal Pin/s I/O Buffer Type Power Well Description

GPIO00-07 2-9 I/O

IN

TS

/

OD

6,O3/6

V

DD

General-Purpose I/O Port 0, bits 0-7. Each pin is configured in­dependently as input or I/O, with or without static pull-up, and with
either open-drain or push-pull output type. The port support inter­rupt assertion and each pin can be enabled or masked as an inter­rupt source.

GPIO10
GPIO11-14
GPO15
GPIO16-17

21
53-56
57
69, 71

I/O

IN

TS

/

OD

6,O3/6

V

DD

General-Purpose I/O Port 1, bits 0-7. Same as Port 0. Bit 5 is
output only with low output as default.

GPIO20-27 117-124 I/O

IN

TS

/

OD

6,O3/6

V

DD

General-Purpose I/O Port 2, bits 0-7. Similar to port 0, but
without the interrupt assertion capability.

GPIO30-33
GPIO34

125-128
1 I/O

IN

TS

/

OD

6,O3/6

V

DD

General-Purpose I/O Port 3, bits 0-4. Similar to port 0, but
without the interrupt assertion capability. Bits 5, 6 and 7 are not
implemented.

GPIO40-47 43-50 I/O

IN

TS

/

OD

6,O3/6

V

DD

General-Purpose I/O Port 4, bits 0-7. Same as Port 0.

Signal Pin/s I/O Buffer Type Power Well Description

IRRX1 59 I

IN

TS

VDD,V

SB

IR Receive 1. Primary input to receive serial data from the IR
transceiver. Monitored during power-off for wake-up event
detection.

IRRX2_IRSL0 58 I/O

IN

TS/O3/6

VDD,VSBIRRX2 - IR Receive 2. Auxiliary IR receiver input to support a

second transceiver. Monitored during power-off for wake-up event
detection.

IRSL3-0 IR Select. Output are used to control the IR transceivers.
Input for PnP identification of plug-in IR transceiver (dongle).

After reset, the dual-function IRSLX pins wake up in input mode.
After the ID is read by the IR driver, they may be put into output
mode. The output mode is controlled by Serial Port 2.

IRSL1 127 I/O

IN

T/O3/6

V

DD

IRSL2 69 I/O

IN

T/O3/6

V

DD

IRSL3 71 I

IN

T

V

DD

IRTX 57 O

O

6/12

V

DD

IR Transmit. IR serial output data.

1.0 Signal/Pin Connection and Description (Continued)

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1.4.9 Keyboard and Mouse Controller (KBC)

1.4.10 Musical Instrument Digital Interface (MIDI) Port

Signal Pin/s I/O Buffer Type Power Well Description

GA20 9 I/O

IN

T

/OD

2

V

DD

Gate A20. KBC gate A20 (P21) output.

KBCLK 111 I/O

IN

TS

/OD14VDD,V

SB

Keyboard Clock. Transfers the keyboard clock between the
SuperI/O chip and the external keyboard using the PS/2 protocol.

This pin is driven by the internal, inverted KBC P26 signal, and is
connected internally to the T0 signal of the KBC. External pull-up
resistor to 5V is required (for PS/2 compliance). The pin is
monitored for wake-up event detection. To enable the activity
during power off, it must be pulled up to Keyboard and Mouse
standby voltage.

KBDAT 112 I/O

IN

TS

/OD14VDD,V

SB

Keyboard Data. Tr ansfers the keyboard data between the SuperI/O
chip and the external keyboard using the PS/2 protocol.

This pin is driven by the internal, inverted KBC P27 signal, and is
connected internally to KBC P10. External pull-up resistor to 5V is
required (for PS/2 compliance). The pin is monitored for wake-up
event detection. To enable the activity during power off, it must be
pulled up to Keyboard and Mouse standby voltage.

KBRST 8 I/O

IN

T

/OD

2

V

DD

KBD Reset. Keyboard Reset (P20) output.

MCLK 113 I/O

IN

TS

/OD14VDD,V

SB

Mouse Clock. Transfers the mouse clock between the SuperI/O
chip and the external keyboard using the PS/2 protocol.

This pin is driven by the internal, inverted KBC P23 signal, and is
connected internally to KBC T1. External pull-up resistor to 5V is
required (for PS/2 compliance). The pin is monitored for wake-up
event detection. To enable the activity during power off, it must be
pulled up to Keyboard and Mouse standby voltage.

MDAT 114 I/O

IN

TS

/OD14VDD,V

SB

Mouse Data. Transfers the mouse data between the SuperI/O
chip and the external keyboard using the PS/2 protocol.

This pin is driven by the internal, inverted KBC P22 signal, and is
connected internally to KBC P11. External pull-up resistor to 5V is
required (for PS/2 compliance). The pin is monitored for wake-up
event detection. To enable the activity during power off, it must be
pulled up to Keyboard and Mouse standby voltage.

P12, P16,
P17

6,127,
7

I/O

IN

T

/OD

2

V

DD

I/O Port. KBC open-drain signal for general-purpose input and
output, controlled by KBC firmware.

Signal Pin(s) I/O Buffer Type Power Well Description

MDTX 125 O

O

3/6

V

DD

MIDI Transmit. MIDI serial data output.

MDRX 126 I

IN

TS

V

DD

MIDI Receive. MIDI serial data input.

1.0 Signal/Pin Connection and Description (Continued)

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1.4.11 Parallel Port

Signal Pin/s I/O Buffer Type Power Well Description

ACK 79 I

IN

T

V

DD

Acknowledge. Pulsed low by the printer to indicate that it has
received data from the Parallel Port.

AFD_DSTRB 93 O

OD

14,O14/14

V

DD

AFD - Automatic Feed. When low, instructs the printer to
automatically feed a line after printing each line. This pin is in
TRI-STATE after a 0 is loaded into the corresponding control
register bit. An external 4.7 KΩ pull-up resistor should be
attached to this pin.

DSTRB - Data Strobe (EPP). Active low, used in EPP mode
to denote a data cycle. When the cycle is aborted,

DSTRB

becomes inactive (high).

BUSY_

WAIT 78 I

IN

T

V

DD

Busy. Set high by the printer when it cannot accept another
character.

Wait. In EPP mode, the Parallel Port device uses this active
low signal to extend its access cycle.

ERR 91 I

IN

T

V

DD

Error. Set active low by the printer when it detects an error.

INIT 89 O

OD

14,O14/14

V

DD

Initialize. When low, initializes the printer. This signal is in
TRI-STATE after a 1 is loaded into the corresponding control
register bit. Use an external 4.7 KΩ pull-up resistor.

PD7-5
PD4-3,
PD2, PD1
PD0

80-82
85-86
88, 90
92

I/O

IN

T

/

OD

14,O14/14

V

DD

Parallel Port Data. Transfer data to and from the peripheral
data bus and the appropriate Parallel Port data register. These
signals have a high current drive capability.

PE 77 I

IN

T

V

DD

Paper End. Set high by the printer when it is out of paper. This
pin has an internal weak pull-up or pull-down resistor.

SLCT 76 I

IN

T

V

DD

Select. Set active high by the printer when the printer is
selected.

SLIN_ASTRB 87 O

OD

14,O14/14

V

DD

SLIN - Select Input. When low, selects the printer. This signal
is in TRI-STATE after a 0 is loaded into the corresponding
control register bit. Uses an external 4.7 KΩ pull-up resistor.

ASTRB - Address Strobe (EPP). Active low, used in EPP
mode to denote an address or data cycle. When the cycle is
aborted,

ASTRB becomes inactive (high).

STB_WRITE 94 O

OD

14,O14/14

V

DD

STB - Data Strobe. When low, Indicates to the printer that
valid data is available at the printer port. This signal is in TRI­STATE after a 0 is loaded into the corresponding control
register bit. An external 4.7 KΩ pull-up resistor should be
employed.

WRITE - Write Strobe. Active low, used in EPP mode to
denote an address or data cycle. When the cycle is aborted,
WRITE becomes inactive (high).

1.0 Signal/Pin Connection and Description (Continued)

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1.4.12 Power and Ground

1.4.13 Protection

1.4.14 Serial Port 1 and Serial Port 2

Signal Pin/s I/O Buffer Type Power Well Description

V

BAT

30 I

IN

ULR

-

Battery Power Supply. Provides battery back-up to the System
Wake-Up Control registers, when V

SB

is lost (power-fail). The

pin is connected to the internal logic through a series resistor
for UL protection.

V

DD

20, 52,
83, 115

I PWR - Main 3.3V Power Supply

V

SB

31 I PWR -

Standby 3.3V Power Supply. Provides power to the Wake-Up
Control circuitry, while the main power supply is turned off.

V

SS

19, 51,
84, 116

I GND - Ground

Signal Pin(s) I/O Buffer Type Power Well Description

CHASI 29 I

IN

C

V

PP

Chassis Intrusion Input. Any change of this pin sets the
intrusion detection. For correct operation, this pin must be tied to
V

SS

when it is not used.

CHASO 28 O

OD

6

V

SB

Chassis Intrusion Output. When low, indicates that an intrusion
indication is set.

Signal Pin/s I/O Buffer Type Power Well Description

CTS1
CTS2

100
108

I

IN

TS

V

DD

Clear to Send. When low, indicate that the modem or other data
transfer device is ready to exchange data.

DCD1
DCD2

95
103

I

IN

TS

V

DD

Data Carrier Detected. When low, indicate that the modem or
other data transfer device has detected the data carrier.

DSR1
DSR2

96
104

I

IN

TS

V

DD

Data Set Ready. When low, indicate that the data transfer device,
e.g., modem, is ready to establish a communications link.

DTR1_
BOUT1

DTR2_
BOUT2

101

109

O

O

3/6

V

DD

Data Terminal Ready. When low, indicate to the modem or other
data transfer device that the UART is ready to establish a
communications link. After a system reset, these pins provide the
DTR function and set these signals to inactive high. Loopback
operation holds them inactive.

Baud Output. Provides the associated serial channel baud rate
generator output signal if test mode is selected, i.e., bit 7 of the
EXCR1 Register is set.

DTR1_BOUT1 is used also as BADDR.

RI1
RI2

102
110

I

IN

TS

VDD,V

SB

Ring Indicator. When low, indicate that a telephone ring signal
has been received by the modem. They are monitored during
power-off for wake-up event detection.

1.0 Signal/Pin Connection and Description (Continued)

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1.4.15 Strap Configuration

1.4.16 System Wake-Up Control

RTS1
RTS2

98
106

O

O

3/6

V

DD

Request to Send. When low, indicate to the modem or other data
transfer device that the corresponding UART is ready to exchange
data. A system reset sets these signals to inactive high, and
loopback operation holds them inactive.

RTS1 is used also as TEST.

SIN1
SIN2

97
105

I

IN

TS

V

DD

Serial Input. Receive composite serial data from the
communications link (peripheral device, modem or other data
transfer device).

SOUT1
SOUT2

99
107

O

O

3/6

V

DD

Serial Output. Send composite serial data to the communications
link (peripheral device, modem or other data transfer device).
These signals are set active high after a system reset.

Signal Pin/s I/O Buffer Type Power Well Description

BADDR 101 I

IN

STRP

V

DD

Base Address. Sampled by the trailing edge of the system reset
to determine the base address of the configuration Index-Data
register pair. During reset, it is pulled down by internal 30Kohm
resistor.

If no pull-up resistor is connected, it is sampled low, setting the
Index-Data pair at 2Eh-2Fh.

Connecting a 10K external pull-up resistor to V

DD

would make it

sample high, setting the Index-Data pair at 4Eh-4Fh.

PSLDC0
PSLDC199107

I

IN

STRP

V

SB

Note 1.

Note 1.Make sure that the Serial Port driver is back-drive protected.

Power Supply and LED Configuration. If no pull-up resistor is
connected to these pins, pins 33-35 and 37 function as
PWBTOUT, PSON, PWBTIN and SLPS5 respectively.
Connecting a 10K external pull-up resistor to V

SB

causes these

pins to function as GPOS0, GPOS1, GPIS2, respectively.

PSONPOL 109 I

IN

STRP

V

SB

Note 1.

Power Supply On Polarity. If no pull-up resistor is connected to
this pin, PSON is set active low with open-drain output.
Connecting a 10K external pull-up resistor to V

SB

causes PSON

to be set to active high with push-pull output.

TEST 98 I

IN

STRP

V

DD

Test. If sampled high on the trailing edge of system reset, this
signal forces the device into test mode. This pin is for National
Semiconductor use only, and should be left unconnected.

Signal Pin/s I/O Buffer Type Power Well Description

LED1
LED2

25
26

O

O

12/12

V

SB

LED. VSB-powered pins with programmable outputs, each of
which can be used to produce a 0, 0.25, 0.5, 1, 4 Hz waveform for

LED control.

GPIE6-7 58-59 I

IN

TS

V

SB

General-Purpose Input Event

GPIOE0-5 23-28 I/O

IN

TS

/

OD

6,O3/6

V

SB

General-Purpose I/O Event. VSB-powered pins.

GPIS2-3 35-36 I

IN

TS

V

SB

General-Purpose Input Standby. VSB-powered pins.

GPOS0-1 33-34 O

OD

6,O3/6

V

SB

General-Purpose Output Standby. VSB-powered pins.

Signal Pin/s I/O Buffer Type Power Well Description

1.0 Signal/Pin Connection and Description (Continued)

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1.4.17 WATCHDOG Timer (WDT)

PSON 34 O

O

4

,OD

12

V

SB

Power Supply On. Active level (low or high via PSONPOL strap)
instructs the main power supply to turn the power on. PSON
output signal is open-drain when active low and push-pull when
active high

PWBTIN 35 I

IN

TS

V

SB

Power Button In. Active (low) level indicates a user request to
turn the power on or off. This pin has an internal Schmidt-trigger
input buffer and debouce protection of at least 16 mS.

PWBTOUT 33 O

OD

12

V

SB

Power Button Out. Active (low) level serves as output to the
chipset power button input.

PWUREQ 32 O

OD

6

V

SB

Power-Up Request. Active (low) level indicates that wake-up
event has occurred, and causes the chipset to turn the power
supply on, or to exit its current sleep state. The open-drain output
must be pulled up to V

SB

in order to function during power-off.

RING 27 I

IN

TS

V

SB

Telephone Line Ring. Detection of a pulse train on the RING pin
is a wake-up event that can activate the power-up request
(

PWUREQ). The pin has a Schmidt-trigger input buffer, powered

by V

SB

.

SLPS3 36 I

IN

TS

V

SB

Sleep State 3, 4 or 5. Input from this pin is assumed to be driven
by the system’s ACPI controller to indicate the system’s power
state.

SLPS5 37 I

IN

TS

V

SB

Sleep State 4 or 5. Input from this pin is assumed to be driven
by the system’s ACPI controller to indicate the system’s power
state.

Signal Pin/s I/O Buffer Type Power Well Description

WDO 56 O

OD

6,O3/6

V

DD

WATCHDOG Out. Low level indicates that the WATCHDOG Timer
has reached its time-out period without being retriggered.

The output type and an optional pull-up are configurable.

Signal Pin/s I/O Buffer Type Power Well Description

1.0 Signal/Pin Connection and Description (Continued)

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1.5 INTERNAL PULL-UP AND PULL-DOWN RESISTORS

The signals listed in Table 4 can optionally support internal pull-up (PU) and/or pull-down (PD) resistors. See Section 12.3
for the values of each resistor type.

Table 4. Internal Pull-Up and Pull-Down Resistors

Signal Pin/s Type Comments

ACCESS.bus (ACB)

SCL 54 PU

25

Programmable

SDA 55 PU

25

Programmable

Game Port (GMP)

JOYABTN0 119

PU

25

Programmable

JOYABTN1 120

PU

25

Programmable

JOYBBTN0 123

PU

25

Programmable

JOYBBTN1 124

PU

25

Programmable

General-Purpose Input/Output (GPIO) Ports

GPIO00-07 2-9

PU

25

Programmable

GPIO10
GPIO11-14
GPO15
GPIO16-17

21
53-56
57
69, 71

PU

25

Programmable

GPIO20-27 117-124

PU

25

Programmable

GPIO30-33
GPIO34

125-128
1

PU

25

Programmable

GPIO40-47 43-50

PU

25

Programmable

Keyboard and Mouse Controller (KBC)

P12, P16, P17 6,127,7 PU

25

Musicial Instrument Digital Interface (MIDI) Port

MDRX 126

PU

25

Programmable

Strap Configuration

BADDR 101 PD

30

Strap

PSLDC0 99 PD

30

Strap

PSLDC1 107 PD

30

Strap

PSONPOL 109 PD

30

Strap

TEST 98 PD

30

Strap

Parallel Port

ACK 79

PU

50

AFD_DSTRB 93

PU

100

BUSY_WAIT 78

PD

30

1.0 Signal/Pin Connection and Description (Continued)

30

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ERR 91

PU

50

INIT 89

PU

100

PE 77

PU

50

/

PD

30

Programmable

SLCT 76

PD

30

SLIN_ASTRB 87

PU

100

STB_WRITE 94

PU

100

System Wake-Up Control (SWC)

GPIE6-7 58-59

PU

25

Programmable

GPIOE0-5 23-28

PU

25

Programmable

GPIS2-3 35-36

PU

100

PSON/GPOS1 34

PU

100

PWBTIN 35

PU

50

PWBTOUT 33

PU

100

RING 27 PU

25

WATCHDOG Timer (WDT)

WDO 56 PU1 Programmable

Signal Pin/s Type Comments