Kontron KT690/mITX, KT690, KT690-FW/mITX User Manual

KT690 Family

KTD-00738-C Public User Manual Date: 2008-09-16 Page 1 of 91

KT690-FW/mITX

KT690/mITX

User Manual

for the Motherboards:

KT690 Family

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Document revision history.

Revision Date By Comment

C Sep. 16th 2008 MLA

Added FDD cable info. Corrections to Floppy connector. CPU List updated. Added Clock Distribution.

B Aug. 11th 2008 MLA

Battery lifetime info added. Minor corrections, additions and layout improvements.

A Jul. 23rd, 2008 PJA Updated

0 Dec. 11th, 2007 PJA First preliminary manual version.

Copyright Notice:

No part of this document may be reproduced or transmitted in any form or by any means, electronically or mechanically, for any purpose, without the express written permission of KONTRON Technology A/S.

Trademark Acknowledgement:

Brand and product names are trademarks or registered trademarks of their respective owners.

Disclaimer:

KONTRON Technology A/S reserves the right to make changes, without notice, to any product, including circuits and/or software described or contained in this manual in order to improve design and/or performance. Specifications listed in this manual are subject to change without notice. KONTRON Technology assumes no responsibility or liability for the use of the described product(s), conveys no license or title under any patent, copyright, or mask work rights to these products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless otherwise specified. Applications that are described in this manual are for illustration purposes only. KONTRON Technology A/S makes no representation or warranty that such application will be suitable for the specified use without further testing or modification.

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Life Support Policy

KONTRON Technology’s PRODUCTS ARE NOT FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT EXPRESS WRITTEN APPROVAL OF THE GENERAL MANAGER OF KONTRON Technology A/S.

As used herein:

1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into body, or (b) support or sustain life and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.

2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.

KONTRON Technology Technical Support and Services

If you have questions about installing or using your KONTRON Technology Product, check this User’s Manual first – you will find answers to most questions here. To obtain support, please contact your local Distributor or Field Application Engineer (FAE).

Before Contacting Support: Please be prepared to provide as much information as possible:

 CPU Board

1. Type.

2. Part-number.

3. Serial Number.

 Configuration

1. CPU Type, Clock speed.

2. DRAM Type and Size.

3. BIOS Revision (Find the Version Info in the BIOS Setup).

4. BIOS Settings different than Default Settings (Refer to the BIOS Setup Section).

 System

1. O/S Make and Version.

2. Driver Version numbers (Graphics, Network, and Audio).

3. Attached Hardware: Harddisks, CD-rom, LCD Panels etc.

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Table of contents:

1.

INTRODUCTION.....................................................................................................................................7

2. INSTALLATION PROCEDURE..............................................................................................................8

2.1 Installing the board............................................................................................................................8

2.2 Requirement according to EN60950..............................................................................................10

3. SYSTEM SPECIFICATION...................................................................................................................11

3.1 Component main data .....................................................................................................................11

3.2 KT690/mITX System overview........................................................................................................14

3.3 KT690-FW/mITX System overview .................................................................................................15

3.4 Processor support table..................................................................................................................16

3.5 System Memory................................................................................................................................17

3.5.1 Memory Configuration ................................................................................................................17

3.6 KT690 Fan / Heatsinks.....................................................................................................................18

3.7 KT690 Power State Map ..................................................................................................................19

3.8 Power Consumption........................................................................................................................20

3.9 KT690 Clock Distribution................................................................................................................23

4. CONNECTOR DEFINITIONS................................................................................................................24

4.1 Connector layout..............................................................................................................................25

4.1.1 KT690/mITX................................................................................................................................ 25

4.1.2 KT690-FW/mITX.........................................................................................................................27

4.2 Power Connector (ATXPWR)..........................................................................................................28

4.3 Keyboard and PS/2 mouse connectors.........................................................................................29

4.3.1 Stacked MINI-DIN keyboard and mouse Connector (MSE & KBD) ........................................... 29

4.3.2 Keyboard and mouse pin-row Connector (KBDMSE) ................................................................29

4.4 Display Connectors.........................................................................................................................30

4.4.1 CRT Connector (CRT)................................................................................................................31

4.4.2 DVI Connector (DVI-D, digital only)............................................................................................32

4.4.3 LVDS Flat Panel Connector (LVDS)...........................................................................................33

4.4.4 TV-Out (Not supported) ..............................................................................................................34

4.5 PCI-Express Connectors.................................................................................................................35

4.5.1 PCI-Express x8...........................................................................................................................35

4.5.2 miniPCI-Express connector ........................................................................................................37

4.6 Parallel ATA harddisk interface......................................................................................................38

4.6.1 IDE Hard Disk Connector (PATA) ..............................................................................................39

4.6.2 CF Connector (CF) .....................................................................................................................40

4.7 Serial ATA harddisk interface.........................................................................................................41

4.7.1 SATA Hard Disk Connector (SATA0, SATA1, SATA2, SATA3).................................................41

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4.8

Firewire/ IEEE-1394 connectors. ....................................................................................................42

4.8.1 IEEE1394 Connector (IEEE1394_1 and IEEE1394_2).............................................................. 42

4.9 Printer Port Connector (PRINTER).................................................................................................43

4.10 Floppy connector (FLOPPY). ......................................................................................................44

4.11 Serial Ports....................................................................................................................................45

4.11.1 Com1 Pin Header Connector. ....................................................................................................45

4.11.2 Com2 Pin Header Connector. ....................................................................................................45

4.12 Ethernet connectors. ...................................................................................................................46

4.12.1 Ethernet connectors (ETHER1 and ETHER2) ...........................................................................46

4.13 USB Connector (USB)..................................................................................................................47

4.13.1 USB Connector 0/2 (USB0/2).....................................................................................................47

4.13.2 USB Connector 4/5 (USB4/5).....................................................................................................48

4.13.3 USB Connector 6/7 (USB6/7).....................................................................................................48

4.13.4 USB Connector 8/9 (USB8/9).....................................................................................................49

4.14 Audio Connector ..........................................................................................................................50

4.14.1 Audio Line-in, Line-out and Microphone..................................................................................... 50

4.14.2 CD-ROM Audio input (CDROM).................................................................................................50

4.14.3 AUDIO Header (AUDIO_HEAD).................................................................................................51

4.15 Fan connectors , FAN_CPU and FAN_SYS. ..............................................................................52

4.16 The Clear CMOS Jumper, Clr-CMOS..........................................................................................53

4.17 TPM connector (unsupported)....................................................................................................53

4.18 Front Panel connector (FRONTPNL)..........................................................................................54

4.19 Feature Connector (FEATURE)...................................................................................................55

4.20 PCI Slot Connector......................................................................................................................56

4.20.1 Signal Description –PCI Slot Connector..................................................................................... 57

4.20.2 KT690 PCI IRQ & INT routing.....................................................................................................58

5. ONBOARD CONNECTORS .................................................................................................................59

6. SYSTEM RESSOURCES......................................................................................................................60

6.1 Memory map.....................................................................................................................................60

6.2 PCI devices.......................................................................................................................................61

6.3 Interrupt Usage ................................................................................................................................62

6.4 I/O Map ..............................................................................................................................................63

6.5 DMA Channel Usage........................................................................................................................63

7. OVERVIEW OF BIOS FEATURES.......................................................................................................64

7.1 System Management BIOS (SMBIOS / DMI)..................................................................................64

7.2 Legacy USB Support.......................................................................................................................64

8. BIOS CONFIGURATION / SETUP .......................................................................................................65

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8.1

Introduction......................................................................................................................................65

8.2 Main Menu.........................................................................................................................................65

8.3 Advanced Menu................................................................................................................................66

8.3.1 Advanced settings – CPU Configuration ....................................................................................66

8.3.2 Advanced settings – IDE Configuration......................................................................................67

8.3.3 Advanced settings – LAN Configuration..................................................................................... 70

8.3.4 Advanced settings – Floppy Configuration.................................................................................70

8.3.5 Advanced settings – Super IO Configuration .............................................................................71

8.3.6 Advanced settings – Hardware Health Configuration ................................................................72

8.3.7 Advanced settings – Voltage Monitor ......................................................................................... 73

8.3.8 Advanced settings – ACPI Configuration ...................................................................................73

8.3.9 Advanced settings – Remote Access Configuration ..................................................................74

8.3.10 Advanced settings – Trusted Support ........................................................................................75

8.3.11 Advanced settings – USB Configuration ....................................................................................75

8.3.12 Advanced settings – USB Mass Storage Device Configuration.................................................76

8.3.13 Advanced settings – Clock Generator Settings..........................................................................76

8.4 PCIPnP Menu....................................................................................................................................77

8.5 Boot Menu.........................................................................................................................................78

8.5.1 Boot – Boot Settings Configuration ............................................................................................79

8.5.2 Boot – Boot Device Priority.........................................................................................................80

8.6 Security Menu...................................................................................................................................81

8.7 Chipset Menu....................................................................................................................................82

8.7.1 Advanced Chipset Settings – North Bridge Chipset Configuration ............................................82

8.7.2 Advanced Chipset Settings – SouthBridge Configuration.......................................................... 83

8.7.3 Advanced Chipset Settings - AMD 690G Configuration............................................................. 84

8.8 Power ................................................................................................................................................87

8.9 Exit Menu..........................................................................................................................................88

9. AMI BIOS BEEP CODES......................................................................................................................89

10. OS SETUP.............................................................................................................................................90

11. WARRANTY..........................................................................................................................................91

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1. Introduction

This manual describes the KT690/mITX and KT690-FW boards made by KONTRON Technology A/S. The boards will also be denoted KT690 family if no differentiation is required.

All boards are to be used with the Mobile AMD Sempron™ and AMD Turion™ 64 X2 Mobile Processors for S1 socket.

Use of this manual implies a basic knowledge of PC-AT hard- and software. This manual is focused on describing the KT690 Board’s special features and is not intended to be a standard PC-AT textbook.

New users are recommended to study the short installation procedure stated in chapter 3 before switchingon the power.

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!

2. Installation procedure

2.1 Installing the board

To get the board running, follow these steps. In some cases the board shipped from KONTRON Technology has CPU, DDR2 DRAM and Cooler mounted. In this case Step 2-4 can be skipped.

1. Turn off the power supply

2. Insert the DDR2 SODIMM 200pin DRAM module(s)

Push down the module from the top side until the tabs lock. For a list of approved DDR2 SODIMM modules contact your Distributor or FAE. DDR2 SODIMM 200pin DRAM modules (PC3200, PC4200, PC5300) are supported.

3. Install the processor

The CPU is keyed and will only mount in the CPU socket in one way. Use a 6mm flatheaded screwdriver to open/ close the CPU socket. The Mobile AMD Sempron™ and AMD Turion™ 64 X2 Mobile Processors for S1 socket are supported, refer to supported processor overview for details.

4. Cooler Installation

Mount the cooler using the clip holders mounted on the board. Connect the Fan electrically to the CPU FAN connector.

(continues)

CPU Pin 1 marking

Screwdriver actuated locking mechanism

CPU FAN connector

Clip holder

Clip

Warning: Do not use Power Supply without 3.3V monitoring watchdog, which is

standard feature in ATX Power Supplies. Running the board without 3.3V connected will damage the board after a few minutes. Be careful not to short circuit the lithium battery for instance by placing the board upside down directly on a metal plate, so that the battery 3V is connected to ground via IO Connector housing.

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5. Connecting Interfaces

Insert all external cables for hard disk, keyboard etc. A CRT monitor must be connected in order to change CMOS settings to flat panel support.

6. Connect Power supply

Connect power supply to the board by the ATX/ BTXPWR and 4-pin ATX connectors. For board to operate connection of both the ATX/BTX and 4-pin ATX (12V) connectors are required.

7. Turn on the power on the ATX/ BTX power supply

8. Power Button

The PWRBTN_IN must be toggled to start the Power supply; this is done by shorting pins 16 (PWRBTN_IN) and pin 18 (GND) on the FRONTPNL connector (see Connector description). A “normally open” switch can be connected via the FRONTPNL connector.

9. BIOS Setup

Enter the BIOS setup by pressing the <Del> key during boot up. Refer to the “BIOS Configuration / Setup“ section of this manual for details on BIOS setup. Enter Advanced Menu / CPU Configuration / Intel SpeedStep Tech. and set this option to “Maximum Performance”.

Note: To clear all CMOS settings, including Password protection, move the Clr-CMOS jumper (with or

without power) for approximately 1 minute. Alternatively turn off power and remove the battery for 1 minute, but be careful to orientate the battery correctly when reinserted.

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2.2 Requirement according to EN60950

Users of KT690 and KT690-FW boards should take care when designing chassis interface connectors in order to fulfill the EN60950 standard:

Lithium Battery precautions:

CAUTION!

Danger of explosion if battery is incorrectly

replaced.

Replace only with same or equivalent type

recommended by manufacturer.

Dispose of used batteries according

to the manufacturer’s instructions.

VORSICHT!

Explosionsgefahr bei unsachgemäßem Austausch

der Batterie.

Ersatz nur durch den selben oder einen vom

Hersteller empfohlenen gleichwertigen Typ.

Entsorgung gebrauchter Batterien nach

Angaben des Herstellers.

ADVARSEL!

Lithiumbatteri – Eksplosionsfare ved fejlagtig

håndtering.

Udskiftning må kun ske med batteri

af samme fabrikat og type.

Levér det brugte batteri tilbage til leverandøren.

ADVARSEL

Eksplosjonsfare ved feilaktig skifte av batteri. Benytt samme batteritype eller en tilsvarende

type anbefalt av apparatfabrikanten.

Brukte batterier kasseres i henhold til fabrikantens

instruksjoner.

VARNING

Explosionsfara vid felaktigt batteribyte.

Använd samma batterityp eller en ekvivalent

typ som rekommenderas av apparattillverkaren.

Kassera använt batteri enligt fabrikantens

instruktion.

VAROITUS

Paristo voi räjähtää, jos se on virheellisesti

asennettu.

Vaihda paristo ainoastaan laltevalmistajan

suosittelemaan

tyyppiln. Hävitä käytetty paristo valmistajan

ohjeiden

mukaisesti.

When an interface/connector has a VCC (or other power) pin, which is directly connected to a power plane like the VCC plane:

To protect the external power lines of peripheral devices the customer has to take care about:

• That the wires have the right diameter to withstand the maximum available power.

• That the enclosure of the peripheral device fulfils the fire protecting requirements of IEC/EN 60950.

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3. System specification

3.1 Component main data

The table below summarises the features of the KT690 and KT690-FW embedded motherboards.

Form factor

KT690/mITX and KT690-FW/mITX: mini ITX (170.18millimeters by 170.18millimeters)

Processor

• Support for Mobile AMD Sempron™, AMD Turion™ 64 and AMD Turion™ 64 X2

Mobile Processors for S1 socket

• 35W maximum TDP

• 1.6GT/s HyperTransport™ link, 800 MHz, 16bit/16bit

• Hypertransport™ 1.0 Tunnel (I/O Bus) speed of 800MHz

• Internal L1 cache of 128KB (Single core CPUs) / 128KB x2 (Dual core CPUs)

• Internal L2 cache of 128/256/512KB (Single core CPUs) / 512KB x2 (Dual core CPUs)

• Processor technology of 65nm / 90nm

• DDR2 memory controller and bus interface

Memory

• Dual Channel DDR2 memory architecture

• 2 pcs DDR2 SODIMM 200pin DRAM sockets onboard.

• Support for DDR 400/533/667MHz unbuffered memory (PC2-3200/PC2-4200/PC2-

5300)

• Support system memory from 256MB and up to 4GB

• ECC not supported

Chipset

AMD Chipset consisting of:

• AMD M690T northbridge ( graphics tunnel)

• ATI SB600 southbridge (I/O hub)

Video

• Integrated ATI Radeon™ X1200 graphics core

o CRT Out connector o DVI-D connector (Digital only) o Onboard LVDS connector o TV-Out connector**

• Dual independent pipe support: Mirror and Dual Independent displays supported.

• Full DirectX® 9.0 support

• Maximum resolution of 2048x1536 @ 32bpp for a maximum pixel clock speed of

400MHz.

• LVDS interface supports dual channel, 24bit OpenLDI/ SPWG panels.

• HyperMemory

TM

allowing up to 256MB dynamically allocated Video Memory (System

memory is allocated when it is needed).

Audio

Audio, 7.1 and 7.2 Channel High Definition Audio Codec using the Realtek ALC888 codec

• Line-out

• Line-in

• Surround output: SIDE, LFE, CEN, BACK and FRONT

• Microphone: MIC1, MIC2

• CDROM in

• SPDIF Interface

Onboard speaker

(continues)

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I/O Control

Winbond W83627DHG LPC Bus I/O Controller

Peripheral interfaces

• Six USB 2.0 ports on I/O area

• Four USB 2.0 ports on internal pinrows

• Two Serial ports (RS232)

• One Parallel port, SPP/EPP/ECP

• One Floppy port

• Four Serial ATA-300 IDE AHCI interfaces

• One PATA 66/100/133 interface with support for 2 devices

• CF (Compact Flash) interface (KT690/mITX only) supporting CF type I and II.

(UDMA2 max.). Note that only one PATA device is supported when CF is used and only by use of 40-wire cable (not 80-wire cable). Optionally use SATA devices.

• Two IEEE 1394-1995/ 1394a-2000 OHCI Firewire ports supporting speeds of 100

Mbits/s, 200 Mbits/s, and 400 Mbits/s (KT690-FW/mITX only)

• PS/2 keyboard and mouse ports

LAN Support

• 2x 10/100/1000Mbits/s LAN using Realtek RTL8111B controllers

• RPL/PXE netboot supported. Wake On LAN (WOL) supported.

BIOS

• Kontron Technology / AMI BIOS (core version 8.00)

• Support for Advanced Configuration and Power Interface (ACPI 1.0b), Plug and Play

o Suspend To Ram (S3) o Suspend To Disk (S4)

• Support for Cool’n’Quiet™

• Secure CMOS/ OEM Setup Defaults

• “Always On” BIOS power setting

• Desktop Management Interface (DMI)

• Support for addition of System Locked Preinstallation (SLP) key in BIOS

• Setup for Forced Boot device

• RAID Support (RAID modes 0, 1, and 10) (for Linux O/S limitations may apply)

• TPM onboard

Expansion Capabilities

• PCI Bus routed to PCI slot(s) (PCI Local Bus Specification Revision 2.3)

o KT690/mITX: 1 slot

PCI 2.3, 32 bits, 33 MHz, 5V compliant

• PCI-Express bus routed to PCI Express slot(s) (PCI Express 1.1a)

o KT690/mITX: 1 slot

PCI-Express x16 with PCI-Express x8 support

• Mini PCI-Express routed to mini PCI-Express connector

Support for Mini PCI-Express modules with no components on backside.

• SMBus routed to FEATURE, PCI slot, PCI Express and mini-PCI Express connectors

• LPC Bus routed to TPM connector

• DDC Bus routed to LVDS and CRT connector

• 8 x GPIOs (General Purpose I/Os) routed to FEATURE connector

Hardware Monitor Subsystem

• Smart Fan control system, support Thermal® and Speed® cruise for three onboard

Fan control connectors: FAN_CPU, FAN_SYS and FEATURE

• Three thermal inputs: CPU die temperature, System temperature and External

temperature input routed to FEATURE connector. (Precision +/- 3ºC)

• Voltage monitoring

• Intrusion detect input

• SMI violations (BIOS) on HW monitor not supported. Supported by API.

Operating Systems Support

• WinXP

• Windows Vista

• Windows 2003

• WinXP Embedded

• Linux: Feodora Core 8

(continues)

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Environmental Conditions

Operating:

0°C – 60°C operating temperature (forced cooling). It is the customer’s responsibility to provide sufficient airflow around each of the components to keep them within allowed temperature range. 10% - 90% relative humidity (non-condensing)

Storage:

-20°C – 70°C 5% - 95% relative humidity (non-condensing)

Electro Static Discharge (ESD) / Radiated Emissions (EMI):

All Peripheral interfaces intended for connection to external equipment are ESD/ EMI protected. EN 61000-4-2:2000 ESD Immunity EN55022:1998 class B Generic Emission Standard.

Safety:

UL 60950-1:2003, First Edition

CSA C22.2 No. 60950-1-03 1st Ed. April 1, 2003 Product Category: Information Technology Equipment Including Electrical Business Equipment Product Category CCN: NWGQ2, NWGQ8 File number: E194252

Theoretical MTBF:

234,251 hours or 26.7 years @40 degrees Celsius ambient temperature 135,169 hours or 15.4 years @60 degrees Celsius ambient temperature

Restriction of Hazardeous Substances (RoHS):

All boards in the KT690 family are RoHS compliant.

Capacitor utilization:

No Tantal capacitors on board Only Japanese brand Aluminium and solid electrolytic capacitors rated for 100degrees Celsius used on board

Battery

Exchangeable 3.0V Lithium battery for onboard Real Time Clock and CMOS RAM.

Manufacturer Panasonic / Part-number CR2032NL/LE or CR-2032L/BE

Expected minimum 5 years retention varies depending on temperature, actual application on/off rate and variation within chipset and other components.

Approximately current draw is 3µA (no PSU connected).

CAUTION: Danger of explosion if the battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer’s instructions.

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3.2 KT690/mITX System overview

The block diagram below shows the architecture and main components of the KT690/mITX board. The two key components on the board are the AMD

®

M690T and AMD® SB600 Embedded Chipsets.

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3.3 KT690-FW/mITX System overview

The block diagram below shows the architecture and main components of the KT690-FW/mITX board. The two key components on the board are the AMD

®

M690T and AMD® SB600 Embedded Chipsets.

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3.4 Processor support table.

The KT690/mITX and KT690-FW/mITX is designed to support the following socket S1 processors:

Mobile AMD Sempron™ AMD Turion™ 64 X2 Mobile Technology Processors

Processor Brand Model

Clock

Speed

[MHz]

Number

of Cores

Order Number

Thermal

Guideline

[Watt]

Embedded

Mobile AMD Sempron™ 2100+ 1000 1 SMF2100HAX3DQE 8W Yes

Mobile AMD Sempron™ 3500+ 1800 1 SMS3500HAX4CME 25W Yes

Mobile AMD Sempron™ 3600+ 2000 1 SMS3600HAX3DN 25W No

Mobile AMD Sempron™ 3700+ 2000 1 SMS3700HAX4DQE 25W Yes

Mobile AMD Sempron™ 3800+ 2200 1 SMD3800HAX3CM 31W No

Mobile AMD Sempron™ 4000+ 2200 1 SMD4000HAX4DN 31W No

AMD Turion™ 64 X2 Mobile Technology

TL52 1600 2 TMDTL52HAX5CTE 35W Yes

AMD Turion™ 64 X2 Mobile Technology

TL56 1800 2 TMDTL56HAX5DME 35W Yes

AMD Turion™ 64 X2 Mobile Technology

TL58 1900 2 TMDTL58HAX5DC 31W No

AMD Turion™ 64 X2 Mobile Technology

TL60 2000 2 TMDTL60HAX5DC 31W No

AMD Turion™ 64 X2 Mobile Technology

TL62 2100 2 TMDTL62HAX5DME 35W Yes

AMD Turion™ 64 X2 Mobile Technology

TL64 2200 2 TMDTL64HAX5DC 35W No

AMD Turion™ 64 X2 Mobile Technology

TL66 2300 2 TMDTL66HAX5DM 35W No

AMD Turion™ 64 X2 Mobile Technology

TL68 2400 2 TMDTL68HAX5DM 35W No

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3.5 System Memory

The motherboard provides two 200-pin DDR2 Small Outline Dual Inline Memory Module (SO-DIMM) sockets. Each slot can be populated with up to 2 GB of unbuffered DDR2 SO-DIMM modules resulting in a maximum of 4 GB system memory. Memory speeds up to DDR2-667 (PC2-5300) are supported.

3.5.1 Memory Configuration

Dual Channel configuration (128 bit) is enabled by populating both memory channels (DDR2 SLOT 1 and DDR2 SLOT 1). Populating only one memory slot results in 64-bit Single Channel mode.

Mode DDR2 SLOT 1 DDR2 SLOT 2

Populated -

Single Channel (64 bit)

- Populated

Dual Channel (128 bit)

Populated Populated

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3.6 KT690 Fan / Heatsinks

P/N 1022-1521 - Passive S1 cooler 35mm

Supports CPUs with Thermal Design Power (TDP) up to: 9W @60 degrees C ambient.

Customer must ensure proper airflow in system

P/N 823139 - AMD S1 cooler

Supports CPUs with Thermal Design Power (TDP) up to: 30W @60 degrees C ambient and 35W @50 degrees C ambient.

Customer must ensure proper airflow in system.

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3.7 KT690 Power State Map

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3.8 Power Consumption

In order to ensure safe operation of the board, the ATX power supply must monitor the supply voltage and shut down if the supplies are out of range – refer to the hardware manual for actual power specification.

The KT690/mITX and KT690-FW/mITX board is powered through the ATX connector and the additional 12V separate supply for CPU as specified in the ATX specification; besides this the power supplied to the board must be within the ATX specification.

The requirements to the supply voltages are as follows:

Supply Min Max Note

Vcc3 3.14V 3.46V

Should be ±5% for compliance with the ATX specification

Vcc 4.75V 5.25V

Should be ±5% for compliance with the ATX specification

+12V 11.4V 12.6V

Should be ±5% for compliance with the ATX specification

–12V –13.2V –10.8V

Should be ±10% for compliance with the ATX specification

-5V -5,50V -4.5V Not required for the KT690/mITX board

5VSB 4.75V –5.25V

Should be ±5% for compliance with the ATX specification

Static Power Consumption

The power consumption of the KT690/mITX and KT690-FW/mITX Board is measured under:

1- WindowsXP, Running 3DMARK & CPU BURN, mean

2- WindowsXP, Running 3DMARK & CPU BURN, peak

3- S1, mean

4- S3, mean

5- Inrush, peak

Test setup

The following items were used in the test setup:

1. KT690/mITX board

2. 12V active cooler

3. PS/2 keyboard & mouse, CRT, HD, ATX PSU

4. Tektronix TDS 7404, P6345 probes

5. Fluke Current Probe 80i-100S AC/DC

Note: The Power consumption of CRT, HD and Fan is not included.

ATX supplies

KT690/mITX

PSU

Gnd

Current

Pr

obe

Tektronix TDS 7404

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KT690/mITX w/1.6GHz Turion 64 X2 2GB DDR2

Windows XP, 3DMARK2001 & CPUBURN, mean

Supply Current draw Power consumption

+12V 2.0A 24W

+5V 2.6A 13W

+3V3 1.1A 3.63W

-12V 0A 0W

5VSB 0A 0W

Total X 40.63W

Windows XP, 3DMARK2001 & CPUBURN, peak

Supply Current draw Power consumption

+12V 2.4A 28.8W

+5V 3.2A 16W

+3V3 1.3A 4.29W

-12V 0A 0W

5VSB 0A 0W

Total X 49.09W

S1, mean

Supply Current draw Power consumption

+12V 0.24A 2.88W

+5V 1.4A 7.00W

+3V3 0.83A 2.74W

-12V 0.0A 0W

5VSB 0A 0W

Total X 12.62W

S3, mean

Supply Current draw Power consumption

+12V X 0W

+5V X 0W

+3V3 X 0W

-12V X 0W

5VSB 0.25A 1.25W

Total X 1.25W

Inrush, peak

Supply Current draw

+12V 2.0A

+5V 4.7A

+3V3 1.5A

-12V 0A

5VSB 2.5A

KT690 Family

KTD-00738-C Public User Manual Date: 2008-09-16 Page 22 of 91

KT690/mITX w/1.00GHz Sempron 2100+ 256MB DDR2

Windows XP, 3DMARK2001 & CPUBURN, mean

Supply Current draw Power consumption

+12V 0.65A 7.8W

+5V 1.9A 9.5W

+3V3 1.1A 3.63W

-12V 0A 0W

5VSB 0A 0W

Total X 20.93W

Windows XP, 3DMARK2001 & CPUBURN, peak

Supply Current draw Power consumption

+12V 0.82A 9.84W

+5V 2.4A 12W

+3V3 1.3A 4.29W

-12V 0A 0W

5VSB 0A 0W

Total X 26.13W

S1, mean

Supply Current draw Power consumption

+12V 0.3A 3.6W

+5V 1.4A 7W

+3V3 0.8A 2.64W

-12V 0A 0W

5VSB 0A 0W

Total X 13.24W

S3, mean

Supply Current draw Power consumption

+12V X 0W

+5V X 0W

+3V3 X 0W

-12V X 0W

5VSB 0.25A 1.25W

Total X 1.25W

Inrush, peak

Supply Current draw

+12V 1.4A

+5V 4.6A

+3V3 1.1A

-12V 0A

5VSB 2.5A

KT690 Family

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3.9 KT690 Clock Distribution

KT690 Family

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4. Connector Definitions

The following sections provide pin definitions and detailed description of all on-board connectors.

The connector definitions follow the following notation:

Column

name

Description

Pin Shows the pin-numbers in the connector. The graphical layout of the connector definition

tables is made similar to the physical connectors.

Signal The mnemonic name of the signal at the current pin. The notation “XX#” states that the signal

“XX” is active low.

Type AI : Analog Input.

AO : Analog Output.

I : Input, TTL compatible if nothing else stated.

IO : Input / Output. TTL compatible if nothing else stated.

IOT : Bi-directional tristate IO pin.

IS : Schmitt-trigger input, TTL compatible.

IOC : Input / open-collector Output, TTL compatible.

NC : Pin not connected.

O : Output, TTL compatible.

OC : Output, open-collector or open-drain, TTL compatible.

OT : Output with tri-state capability, TTL compatible.

LVDS: Low Voltage Differential Signal.

PWR : Power supply or ground reference pins.

Ioh: Typical current in mA flowing out of an output pin through a grounded load, while the

output voltage is > 2.4 V DC (if nothing else stated).

Iol: Typical current in mA flowing into an output pin from a VCC connected load, while the output voltage is < 0.4 V DC (if nothing else stated).

Pull U/D On-board pull-up or pull-down resistors on input pins or open-collector output pins.

Note Special remarks concerning the signal.

The abbreviation TBD is used for specifications which are not available yet or which are not sufficiently

specified by the component vendors.

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4.1 Connector layout

4.1.1 KT690/mITX

Topside, KT690/mITX:

* Mounted optionally

CRT

DVI-D

MSE KBD

AUDIO

STACK

ETHER2

USB4 USB5

CDROM

USB2 USB0

ETHER1

USB9 USB8

SATA1 SATA3 SATA0 SAT

A

2

ATX/ BTXPWR

Clr-CMOS

PCI Slot 1

PCIe x8

FAN_SYS

KBDMSE

FRONTPNL

AUDIO

HEAD

FLOPPY

DDR2 SLOT 2 DDR2 SLOT 1

FAN_CPU

ATX+12V

COM1

TPM

LVDS

BTN RESET

TV-OUT*

PATA

FEATURE

COM2

PRINTER

USB6 USB7

COMPACT FLASH

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KTD-00738-C Public User Manual Date: 2008-09-16 Page 26 of 91

Front, KT690/mITX

* Mounted optionally

Backside, KT690/mITX:

AUDIO

STACK

ETHER2

USB4 USB5

ETHER1

USB9 USB8

TV-OUT*

CRT

DVI-D

MSE KBD

USB2 USB0

Mini-PCI

express

slot

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KTD-00738-C Public User Manual Date: 2008-09-16 Page 27 of 91

4.1.2 KT690-FW/mITX

Topside, KT690-FW/mITX:

CRT

DVI-D

MSE

KBD

AUDIO

STACK

ETHER2

USB4 USB5

USB2 USB0

ETHER1

USB9 USB8

SATA1 SATA3 SATA0 SAT

A

2

ATX/ BTXPWR

Clr-CMOS

PCI Slot 1

PCIe x8

FAN_SYS

KBDMSE

FRONTPNL

AUDIO

HEAD

FLOPPY

DDR2 SLOT 2 DDR2 SLOT 1

FAN_CPU

ATX+12V

COM1

TPM

LVDS

BTN RESET

TV-OUT

PATA

FEATURE

COM2

PRINTER

USB6 USB7

IEEE1394_1

IEEE1394_2

CDROM

KT690 Family

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4.2 Power Connector (ATXPWR)

The KT690 boards are designed to be supplied from a standard ATX or BTX power supply.

ATX/ BTX Power Connector:

Note

Pull

U/D Ioh/Iol Type Signal

Signal Type Ioh/Iol

Pull U/D Note

- - PWR 3V3 12 24 GND PWR - - PWR +12V 11 23 5V PWR

PWR +12V 10 22 5V PWR

- - PWR SB5V 9 21 5V PWR - -

- - I P_OK 8 20 -5V PWR - - 1

- - PWR GND 7 19 GND PWR - -

- - PWR 5V 6 18 GND PWR - -

- - PWR GND 5 17 GND PWR - -

- - PWR 5V 4 16 PSON# OC - -

- - PWR GND 3 15 GND PWR - -

- - PWR 3V3 2 14 -12V PWR - -

- - PWR 3V3 1 13 3V3 PWR - -

Note 1: -5V supply is not used onboard. Note 2: Use of BTX supply not required for operation, but may be required to drive high-power PCI Express x16 Add cards.

ATX+12V Power Connector:

Note

Pull

U/D Ioh/Iol Type Signal

Signal Type Ioh/Iol

Pull U/D Note

1 - - PWR GND 1 3 +12V PWR - - 1 1 PWR GND 2 4 +12V PWR 1

Note 1: Use of the 4-pin ATX+12V Power Connector is required for operation of the KT690 boards.

See chapter “Power Consumption” regarding input tolerances on 3.3V, 5V, SB5V, +12 and -12V (also refer to ATX specification version 2.2).

Control signal description:

Signal Description

P_OK

P_OK is a power good signal and should be asserted high by the power supply to indicate that the +5VDC and +3.3VDC outputs are above the undervoltage thresholds of the power supply. When this signal is asserted high, there should be sufficient energy stored by the converter to guarantee continuous power operation within specification. Conversely, when the output voltages fall below the undervoltage threshold, or when mains power has been removed for a time sufficiently long so that power supply operation is no longer guaranteed, P_OK should be de-asserted to a low state. The recommended electrical and timing

characteristics of the P_OK (PWR_OK) signal are provided in the ATX12V Power SupplyDesign Guide.

It is strongly recommended to use an ATX or BTX supply with the KT690 boards, in order to implement the supervision of the 5V and 3V3 supplies. These supplies are not supervised onboard the KT690 boards.

PS_ON# Active low open drain signal from the board to the power supply to turn on the power supply

outputs. Signal must be pulled high by the power supply.

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4.3 Keyboard and PS/2 mouse connectors

Attachment of a keyboard or PS/2 mouse adapter can be done through the stacked PS/2 mouse and keyboard connector (MSE & KBD).

Both interfaces utilize open-drain signaling with on-board pull-up.

The PS/2 mouse and keyboard is supplied from SB5V when in standby mode in order to enable keyboard or mouse activity to bring the system out from power saving states. The supply is provided through a 1.1A resetable fuse.

4.3.1 Stacked MINI-DIN keyboard and mouse Connector (MSE & KBD)

Note

Pull U/D Ioh/Iol Type Signal

Signal Type Ioh/Iol

Pull U/D Note

- - - NC 6 5MSCLK IOC TBD 2K7

- - PWR 5V/SB5V 4 3 GND PWR - -

- - - NC 2 1 MSDAT IOC TBD 2K7

- NC 6 5KBDCLK IOC TBD 2K7

- - PWR 5V/SB5V 4 3 GND PWR - -

- - - NC 2 1 KBDDAT IOC TBD 2K7

Signal Description – Keyboard & and mouse Connector (MSE & KBD), see below.

4.3.2 Keyboard and mouse pin-row Connector (KBDMSE)

Signal

Type

Ioh/Iol

Pull

U/D

Note

1 KBDCLK IOC TBD 4K7 2 KBDDAT IOC TBD 4K7 3 MSCLK IOC TBD 4K7 4 MSDAT IOC TBD 4K7 5 5V/SB5V PWR - - 6 GND PWR - -

Signal Description – Keyboard & and mouse Connector (KBDMSE).

Signal Description

MSCLK Bi-directional clock signal used to strobe data/commands from/to the PS/2 mouse.

MSDAT Bi-directional serial data line used to transfer data from or commands to the PS/2 mouse.

KDBCLK Bi-directional clock signal used to strobe data/commands from/to the PC-AT keyboard.

KBDDAT Bi-directional serial data line used to transfer data from or commands to the PC-AT keyboard.

KT690 Family

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4.4 Display Connectors

The KT690 board provides:

1. Analog CRT interface (Front panel)

2. Digital DVI (DVI-D) (Front panel)

3. LVDS connector (internal connector)

4. TV-Out (KT690/mITX Front, KT690-FW/mITX Internal pin header)

The KT690 board does not support ADD2 / SDVO cards on the PCI Express x16 connector.

The KT690 integrates the ATI Radeon™ X1250 Graphics Core with support for Dual Clone display and Dual independent display.

The supported combinations are listed in the below matrix:

Primary Display

CRT DVI-D LVDS TV-Out

CRT

Clone / Dual Clone / Dual Not supported

DVI-D

Clone / Dual

Clone / Dual Clone / Dual

LVDS

Clone / Dual Clone / Dual

Clone / Dual

Secondary

Display

TV-Out

Not supported Clone / Dual Clone / Dual

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4.4.1 CRT Connector (CRT)

Note

Pull U/D Ioh/Iol Type Signal

Signal Type Ioh/Iol

Pull U/D Note

6 GND PWR - -

/75R * A0 RED 1 11 NC - - - 7 GND PWR - - /75R * A0 GREEN 2 12 DDCDAT IO TBD 6K81 2 8 GND PWR - - /75R * A0 BLUE 3 13 HSYNC O TBD 9 5V PWR - - 1

- - - NC 4 14 VSYNC O TBD 10 GND PWR - -

- - PWR GND 5 15 DDCCLK IO TBD 6K81 2

Note 1: The 5V supply in the CRT connector is fused by a 1.1A reset-able fuse. Note 2: Pull-up to +5V.

Signal Description - CRT Connector:

Signal Description

HSYNC CRT horizontal synchronization output.

VSYNC CRT vertical synchronization output.

DDCCLK Display Data Channel Clock. Used as clock signal to/from monitors with DDC interface.

DDCDAT Display Data Channel Data. Used as data signal to/from monitors with DDC interface.

RED Analog output carrying the red color signal to the CRT. For 75 Ohm cable impedance.

GREEN Analog output carrying the green color signal to the CRT. For 75 Ohm cable impedance.

BLUE Analog output carrying the blue color signal to the CRT. For 75 Ohm cable impedance.

DIG-GND Ground reference for HSYNC and VSYNC.

ANA-GND Ground reference for RED, GREEN, and BLUE.

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4.4.2 DVI Connector (DVI-D, digital only)

Female socket, front view

Note: DVI analogue signals are not supported

Signal Description - DVI Connector:

Pin No. Signal Description Type Pull Up

1 TMDS Data 2- Digital Red – (Link 1) LVDS OUT

2 TMDS Data 2+ Digital Red + (Link 1) LVDS OUT

3 TMDS Data 2/4 Shield PWR

4 N.C. -

5 N.C. -

6 DDC Clock DDC Clock IO 2K2

7 DDC Data DDC Data IO 2K2

8 N.C. -

9 TMDS Data 1- Digital Green – (Link 1) LVDS OUT

10 TMDS Data 1+ Digital Green + (Link 1) LVDS OUT

11 TMDS Data 1/3 Shield PWR

12 N.C. -

13 N.C. -

14 +5V (55mA) Power for monitor when in standby PWR

15 GND PWR

16 Hot Plug Detect Hot Plug Detect I

17 TMDS Data 0- Digital Blue – (Link 1) / Digital sync LVDS OUT

18 TMDS Data 0+ Digital Blue + (Link 1) / Digital sync LVDS OUT

19 TMDS Data 0/5 Shield PWR

20 N.C. -

21 N.C. -

22 TMDS Clock Shield PWR

23 TMDS Clock+ Digital clock + (Link 1) LVDS OUT

24 TMDS Clock- Digital clock - (Link 1) LVDS OUT

C1 - C5 N.C. -

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4.4.3 LVDS Flat Panel Connector (LVDS)

Note Type Signal Pin Signal Type Note

Max. 0.5A PWR +12V 1 2 +12V PWR Max. 0.5A Max. 0.5A PWR +12V 3 4 +12V PWR Max. 0.5A Max. 0.5A PWR +12V 5 6 GND PWR Max. 0.5A Max. 0.5A PWR +5V 7 8 GND PWR Max. 0.5A Max. 0.5A PWR LCDVCC 9 10 LCDVCC PWR Max. 0.5A 2K2, 3.3V OT DDC CLK 11 12 DDC DATA OT 2K2, 3.3V

3.3V level OT BKLTCTL 13 14 VDD ENABLE OT 3.3V level

3.3V level OT BKLTEN# 15 16 GND PWR Max. 0.5A LVDS LVDS A0- 17 18 LVDS A0+ LVDS LVDS LVDS A1- 19 20 LVDS A1+ LVDS LVDS LVDS A2- 21 22 LVDS A2+ LVDS LVDS LVDS ACLK- 23 24 LVDS ACLK+ LVDS LVDS LVDS A3- 25 26 LVDS A3+ LVDS Max. 0.5A PWR GND 27 28 GND PWR Max. 0.5A LVDS LVDS B0- 29 30 LVDS B0+ LVDS LVDS LVDS B1- 31 32 LVDS B1+ LVDS LVDS LVDS B2- 33 34 LVDS B2+ LVDS LVDS LVDS BCLK- 35 36 LVDS BCLK+ LVDS LVDS LVDS B3- 37 38 LVDS B3+ LVDS Max. 0.5A PWR GND 39 40 GND PWR Max. 0.5A

Note 1: The KT690 board support dual channel, 24bit OpenLDI/ SPWG panels on the LVDS interface

Signal Description – LVDS Flat Panel Connector:

Signal Description

LVDS A0..A3 LVDS A Channel data

LVDS ACLK LVDS A Channel clock

LVDS B0..B3 LVDS B Channel data

LVDS BCLK LVDS B Channel clock

BKLTCTL Backlight control (1), PWM signal to implement voltage in the range 0-3.3V

BKLTEN# Backlight Enable signal (active low) (2)

VDD ENABLE Output Display Enable.

LCDVCC VCC supply to the flat panel. This supply includes power-on/off sequencing.

The flat panel supply may be either 5V DC or 3.3V DC depending on the CMOS configuration. Maximum load is 1A at both voltages.

DDC CLK DDC Channel Clock

DDC DATA DDC Channel Data

Note 1) Windows API will be available to operate the BKLTCTL signal. Some Inverters has a limited voltage

range 0- 2.5V for this signal: If voltage is > 2.5V the Inverter might latch up. Some Inverters generates noise to the BKLTCTL signal resulting in making the lvds transmision fail (corrupted picture on the display). By adding 1K Ohm resistor in series with this signal and mounted in the Inverter end of the cable kit the noise is limited and picture is stabil.

Note 2) If the Backlight Enable is required to be active high then make the BIOS Chipset setting: Backlight

Signal Inversion = Enabled.

KT690 Family

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4.4.4 TV-Out (Not supported)

The KT690/mITX boards include TV-Out connector with support for Component, S-Video and Composite Output interfaces and NTSC/ PAL output format.

The KT690 board includes Macrovision support.

IMPORTANT: If the TV-Out option is available then you must make agreement with Macrovision

(http://www.macrovision.com/

) about licence fee. Only Macrovision (not Kontron) can determine the actual

licence fee which depends on the application.

KT690/mITX TV-Out connector:

Note

Pull

U/D Ioh/Iol Type Signal

Signal Type Ioh/Iol

Pull U/D Note

GND TVDACC 4 7 3 TVDACB GND 2 6 5 1 GND GND TVDACA

Signal Description

TVDACA TVDAC Channel A output supports:

Composite: CVBS signal

Component: Chrominance (Pb) analog signal

TVDACB TVDAC Channel B output supports:

S-Video: Luminance analog signal

Component: Luminance (Y) analog signal

TVDACC TVDAC Channel C output supports:

S-Video: Chrominance analog signal

Component: Chrominance (Pr) analog signal

KT690-FW/mITX TV-Out connector:

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull

U/D Note

TVDACC 1 2 TVDACB SMBC 3 4 TVDACA SMBD 5 6 -12V +5V 7 8 +12V GND 9 10 GND

KT690 Family

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4.5 PCI-Express Connectors

The KT690 board contains one 8-lane (x8) PCI Express port on a PCI Express x16 connector. The PCI Express port is compliant to the PCI Express Specification revision 1.1a.

The x8 port operates at a frequency of 2.5 Gb/s on each lane; the port supports a maximum theoretical bandwidth of 20 Gb/s in each direction.

The 8-lane (x8) PCI Express port supports:

1. An external graphics device utilizing all 8 lanes

2. A single x1, x2 or x4 general purpose PCI Express link

The PCI Express port does not support SDVO and ADD2 cards.

4.5.1 PCI-Express x8

The KT690 boards supports one 8-lane (x8) PCI Express port for external PCI Express based graphics boards.

Note Type Signal PIN Signal Type Note

+12V B1 A1 NC +12V B2 A2 +12V +12V B3 A3 +12V GND B4 A4 GND SMB_CLK B5 A5 NC SMB_DATA B6 A6 NC GND B7 A7 NC +3V3 B8 A8 NC NC B9 A9 +3V3 SB3V3 B10 A10 +3V3 WAKE# B11 A11 RST#

NC B12 A12 GND GND B13 A13 PCIE_x16 CLK PEG_TXP[0] B14 A14 PCIE_x16 CLK# PEG_TXN[0] B15 A15 GND GND B16 A16 PEG_RXP[0] I2C_CLK B17 A17 PEG_RXN[0] GND B18 A18 GND PEG_TXP[1] B19 A19 NC PEG_TXN[1] B20 A20 GND GND B21 A21 PEG_RXP[1] GND B22 A22 PEG_RXN[1] PEG_TXP[2] B23 A23 GND PEG_TXN[2] B24 A24 GND GND B25 A25 PEG_RXP[2] GND B26 A26 PEG_RXN[2] PEG_TXP[3] B27 A27 GND PEG_TXN[3] B28 A28 GND GND B29 A29 PEG_RXP[3] NC B30 A30 PEG_RXN[3] DDC_DATA B31 A31 GND GND B32 A32 NC PEG_TXP[4] B33 A33 NC PEG_TXN[4] B34 A34 GND GND B35 A35 PEG_RXP[4] GND B36 A36 PEG_RXN[4] PEG_TXP[5] B37 A37 GND PEG_TXN[5] B38 A38 GND GND B39 A39 PEG_RXP[5] GND B40 A40 PEG_RXN[5] PEG_TXP[6] B41 A41 GND PEG_TXN[6] B42 A42 GND GND B43 A43 PEG_RXP[6] GND B44 A44 PEG_RXN[6] PEG_TXP[7] B45 A45 GND PEG_TXN[7] B46 A46 GND GND B47 A47 PEG_RXP[7]

(continues)

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PRSNT#2 B48 A48 PEG_RXN[7] GND B49 A49 GND NC B50 A50 NC NC B51 A51 GND GND B52 A52 NC GND B53 A53 NC NC B54 A54 GND NC B55 A55 GND GND B56 A56 NC GND B57 A57 NC NC B58 A58 GND NC B59 A59 GND GND B60 A60 NC GND B61 A61 NC NC B62 A62 GND NC B63 A63 GND GND B64 A64 NC GND B65 A65 NC NC B66 A66 GND NC B67 A67 GND GND B68 A68 NC GND B69 A69 NC NC B70 A70 GND NC B71 A71 GND GND B72 A72 NC GND B73 A73 NC NC B74 A74 GND NC B75 A75 GND GND B76 A76 NC GND B77 A77 NC NC B78 A78 GND NC B79 A79 GND GND B80 A80 NC NC B81 A81 NC NC B82 A82 GND

KT690 Family

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4.5.2 miniPCI-Express connector

The KT690 board supports one miniPCI Express port compliant to the Mini PCI Specification, Revision 1.0. This allows for implementation for small form factor PCI cards also referred to as Mini PCI Cards.

Note Type Signal PIN Signal Type Note

WAKE# 1 2 +3V3 NC 3 4 GND NC 5 6 +1.5V NC 7 8 NC GND 9 10 NC PCIE_mini CLK# 11 12 NC PCIE_mini CLK 13 14 NC GND 15 16 NC

NC 17 18 GND NC 19 20 W_Disable GND 21 22 RST# PCIE_RXN 23 24 +3V3 PCIE_RXP 25 26 GND GND 27 28 +1.5V GND 29 30 SMB_CLK PCIE_TXN 31 32 SMB_DATA PCIE_TXP 33 34 GND GND 35 36 NC NC 37 38 NC NC 39 40 GND NC 41 42 NC NC 43 44 NC NC 45 46 NC NC 47 48 +1.5V NC 49 50 GND NC 51 52 +3V3

KT690 Family

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4.6 Parallel ATA harddisk interface

One parallel ATA harddisk controllers is available on the board – a primary controller. Standard 3½” harddisks or CD-ROM drives may be attached to the primary controller by means of the 40 pin IDC connector, PATA.

The parallel ATA harddisk controller is shared between the PATA connector and the CF connector.

If the CF connector is not used then two devices (a primary and a secondary device) are supported on the PATA interface.

The harddisk controllers support Bus master IDE, ultra DMA 33/66/100/133 MHz and standard operation modes. For support of ultra DMA 66/100/133 MHz, a 80-wire cable is required.

If the CF connector is used then only one PATA device is supported and only by use of 40-wire cable (not 80-wire cable). Optionally use SATA device(s).

The signals used for the harddisk interface are the following:

Signal Description

DAA2..0 Address lines, used to address the I/O registers in the IDE hard disk.

HDCSA1..0# Hard Disk Chip-Select. HDCS0# selects the primary hard disk.

DA15..8 High part of data bus.

DA7..0 Low part of data bus.

IORA# I/O Read.

IOWA# I/O Write.

IORDYA# This signal may be driven by the hard disk to extend the current I/O cycle.

RESETA# Reset signal to the hard disk.

HDIRQA Interrupt line from hard disk.

CBLIDA This input signal (CaBLe ID) is used to detect the type of attached cable: 80-wire cable

when low input and 40-wire cable when 5V via 10Kohm (pull-up resistor).

DDREQA Disk DMA Request might be driven by the IDE hard disk to request bus master access to

the PCI bus. The signal is used in conjunction with the PCI bus master IDE function and is not associated with any PC-AT bus compatible DMA channel.

DDACKA# Disk DMA Acknowledge. Active low signal grants IDE bus master access to the PCI bus.

HDACTA# Signal from hard disk indicating hard disk activity. The signal level depends on the hard

disk type, normally active low. The signals from primary and secondary controller are routed together through diodes and passed to the connector FEATURE.

All of the above signals are compliant to [4]. The pinout of the connectors are defined in the following sections.

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4.6.1 IDE Hard Disk Connector (PATA)

This connector can be used for connection of two primary IDE drives.

Note

Pull U/D

Ioh/Iol Type Signal PIN Signal Type Ioh/Iol

Pull U/D

Note

- TBD O RESET_P# 1 2 GND PWR - -

- TBD IO DA7 3 4 DA8 IO TBD -

- TBD IO DA6 5 6 DA9 IO TBD -

- TBD IO DA5 7 8 DA10 IO TBD -

- TBD IO DA4 9 10 DA11 IO TBD -

- TBD IO DA3 11 12 DA12 IO TBD -

- TBD IO DA2 13 14 DA13 IO TBD -

- TBD IO DA1 15 16 DA14 IO TBD -

- TBD IO DA0 17 18 DA15 IO TBD -

- - PWR GND 19 20 KEY - - -

- - I DDRQA 21 22 GND PWR - -

- TBD O IOWA# 23 24 GND PWR - -

- TBD O IORA# 25 26 GND PWR - - 4K7 - I IORDYA 27 28 GND PWR - -

- - O DDACKA# 29 30 GND PWR - - 10K - I HDIRQA 31 32 NC - - -

- TBD O DAA1 33 34 CBLIDA# I -

- TBD O DAA0 35 36 DAA2 O TBD -

- TBD O HDCSA0# 37 38 HDCSA1# O TBD -

- - I HDACTA# 39 40 GND PWR - -

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4.6.2 CF Connector (CF)

This connector is mounted on the topside of the KT690/mITX (CF is not available on KT690-FW/mITX).

The CF socket support DMA/UDMA modules up to UDMA2.

NOTE: If the CF connector is used then only one PATA device is supported and only by use of 40-wire cable (not 80-wire cable). Optionally use SATA device(s). Normally CF is Master and then possible PATA device must be Slave.

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull U/D Note

2 - - - NC 26 1 GND PWR - - 1

- TBD IO DA11 27 2 DB3 IO TBD -

- TBD IO DA12 28 3 DB4 IO TBD -

- TBD IO DA13 29 4 DB5 IO TBD -

- TBD IO DA14 30 5 DB6 IO TBD -

- TBD IO DA15 31 6 DB7 IO TBD -

- TBD O HDCSA1# 32 7 HDCSA0# O TBD -

- - - NC 33 8 GND PWR - -

- TBD O IORA# 34 9 GND PWR - -

- TBD O IOWA# 35 10 GND PWR - -

- - PWR 5V 36 11 GND PWR - - 8K2 - I HDIRQA 37 12 GND PWR - -

- - PWR 5V 38 13 5V PWR - -

- - PWR GND 39 14 GND PWR - -

- - - NC 40 15 GND PWR - -

- TBD O RESET_C# 41 16 GND PWR - - 4K7 - I IORDYA 42 17 GND PWR - -

- - I DDRQA 43 18 DAA2 O - -

- - O DDACKA# 44 19 DAA1 O - -

- - I HDACTA# 45 20 DAA0 O - -

- - I CBLIDA# 46 21 DB0 IO TBD -

- TBD IO DB8 47 22 DB1 IO TBD -

- TBD IO DB9 48 23 DB2 IO TBD -

- TBD IO DB10 49 24 NC

1 - - PWR GND 50 25 NC - - - 2

Note 1: Pin is longer than average length of the other pins. Note 2: Pin is shorter than average length of the other pins.

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4.7 Serial ATA harddisk interface

The KT690 boards have an integrated SATA Host controller that supports independent operation on four ports and data transfer rates of up to 3.0Gb/s (300MB/s). The SATA controller supports AHCI mode and has integrated RAID functionality with support for RAID modes 0, 1 and 10.

The board provides four Serial ATA (SATA) connectors, which support one device per connector. The SB600 Southbridge Serial ATA controller offers four independent Serial ATA ports with a theoretical maximum transfer rate of 3 Gbits/sec per port. A point-to-point interface is used for host to device connections, unlike Parallel ATA IDE which supports a master/slave configuration and two devices per channel. For compatibility, the underlying Serial ATA functionality is transparent to the operating system. The Serial ATA controller can operate in both legacy and native modes. In legacy mode, standard IDE I/O and IRQ resources are assigned (IRQ 14 and 15). In Native mode, standard PCI Conventional bus resource steering is used. Native mode is the preferred mode for configurations using the Windows XP and Windows 2000 operating systems.

The KT690 supports the following RAID (Redundant Array of Independent Drives) levels:

• RAID 0 - data striping

• RAID 1 - data mirroring

• RAID 0+1 (or RAID 10) - data striping and mirroring

Limitations depending on Target Operating System apply.

4.7.1 SATA Hard Disk Connector (SATA0, SATA1, SATA2, SATA3)

SATA:

Signal

Type Ioh/Iol

Pull U/D Note

Key

1 GND PWR - - 2 SATA* TX+ 3 SATA* TX- 4 GND PWR - - 5 SATA* RX- 6 SATA* RX+ 7 GND PWR - -

The signals used for the primary Serial ATA harddisk interface are the following:

Signal Description

SATA* RX+

SATA* RX-

Host transmitter differential signal pair

SATA* TX+

SATA* TX-

Host receiver differential signal pair

“*” specifies 0, 1, 2, and 3 depending on SATA port. All of the above signals are compliant to [4].

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4.8 Firewire/ IEEE-1394 connectors.

The KT690-FW/mITX board supports two IEEE Std 1394a-2000 fully compliant cable ports at 100M bits/s, 200Mbits/s, and 400M bits/s.

Note: Firewire interface is not available on the KT690/mITX board.

4.8.1 IEEE1394 Connector (IEEE1394_1 and IEEE1394_2)

The pinout of the Firewire / IEEE1394 connectors are as follows:

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull U/D Note

TPA1+ 1 2 TPA1- GND 3 4 GND

TPB1+ 5 6 TPB1-

1 +12V 7 8 +12V 1

KEY 9 10 GND

Note 1: The 12V supply for the IEEE1394 devices is on-board fused with a 1.5A reset-able fuse.

Signal Description

TPA1+

TPA1–

Differential signal pair A

TPB1+

TPB1–

Differential signal pair B

+12V +12V supply

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4.9 Printer Port Connector (PRINTER).

The signal definition in standard printer port mode is as follows:

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull U/D Note

2K2 (24)/24 OC(O) STB# 1 2 AFD# OC(O) (24)/24 2K2 2K2 24/24 IO PD0 3 4 ERR# I - 2K2 2K2 24/24 IO PD1 5 6 INIT# OC(O) (24)/24 2K2 2K2 24/24 IO PD2 7 8 SLIN# OC(O) (24)/24 2K2 2K2 24/24 IO PD3 9 10 GND PWR - - 2K2 24/24 IO PD4 11 12 GND PWR - - 2K2 24/24 IO PD5 13 14 GND PWR - - 2K2 24/24 IO PD6 15 16 GND PWR - - 2K2 24/24 IO PD7 17 18 GND PWR - - 2K2 - I ACK# 19 20 GND PWR - - 2K2 - I BUSY 21 22 GND PWR - - 2K2 - I PE 23 24 GND PWR - -

2K2 - I SLCT 25 26 GND PWR - -

The interpretation of the signals in standard Centronics mode (SPP) with a printer attached is as follows:

Signal Description

PD7..0 Parallel data bus from PC board to printer. The data lines are able to operate in PS/2

compatible bi-directional mode.

SLIN# Signal to select the printer sent from CPU board to printer.

SLCT Signal from printer to indicate that the printer is selected.

STB# This signal indicates to the printer that data at PD7..0 are valid.

BUSY Signal from printer indicating that the printer cannot accept further data.

ACK# Signal from printer indicating that the printer has received the data and is ready to accept

further data.

INIT# This active low output initializes (resets) the printer.

AFD# This active low output causes the printer to add a line feed after each line printed.

ERR# Signal from printer indicating that an error has been detected.

PE# Signal from printer indicating that the printer is out of paper.

The printer port additionally supports operation in the EPP and ECP mode as defined in [3].

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4.10 Floppy connector (FLOPPY).

The KT690 supports connection of one standard 1.44M Floppy Disk Drive. The Floppy Drive shall be connected as A: (The “last” connector on a standard Floppy Disk cable kit).

Note

Pull

U/D Ioh/Iol Type

Signal

Type Ioh/Iol

Pull

U/D Note

- - PWR GND 1 2 DENSEL0# OC /48 -

- - PWR GND 3 4 NC - - -

- - PWR GND 5 6 NC - - -

- - PWR GND 7 8 INDEX# IS - 330R

- - PWR GND 9 10 MOTEA# OC /48 -

- - PWR GND 11 12 NC - - -

- - PWR GND 13 14 DRVA# OC /48 -

- - PWR GND 15 16 NC - - -

- - PWR GND 17 18 DIR# OC /48 -

- - PWR GND 19 20 STEP# OC /48 -

- - PWR GND 21 22 WDATA# OC /48 -

- - PWR GND 23 24 WGATE# OC /48 -

- - PWR GND 25 26 TRK0# IS - 330R

- - PWR GND 27 28 WPT# IS - 330R

- - - NC 29 30 RDATA# IS - 330R

- - PWR GND 31 32 SIDE1# OC /48 -

- - - NC 33 34 DSKCHG# IS - 330R

Signal Description:

RDATA# Read Disk Data, active low, serial data input from the floppy disk drive.

WDATA# Write Disk Data, active low, serial data output to the floppy disk drive.

WGATE# This output signal enables the head of the selected disk drive to write to the disk.

MOTEA# This output signal enables the motor in floppy disk drive A.

DRVA# Active low output signal to select floppy disk drive A.

SIDE1# This output signal selects side of the disk in the selected drive.

DIR# This signal controls the direction of the floppy disk drive head movement during a seek

operation. A low level request steps through centre.

STEP# This output signal supplies step pulses to move the head during seek operations.

DENSEL0# This output indicates whether a low data rate (250/300kbps at low level) or a high data

rate (500/1000kbps at high level) has been selected.

TRK0# Floppy Disk Track 0, active low input to indicate that the head of the selected drive is at

track 0.

INDEX# Floppy Disk Index, active low input indicates the beginning of a disk track.

WPT# Active low input signal indicating that the selected drive contains a write protected disk.

DSKCHG# Input pin that senses whether the drive door has been opened or the diskette has been

changed.

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4.11 Serial Ports

Two RS232 serial ports are available on the KT690/mITX boards

The typical interpretation of the signals in the COM ports is as follows:

Signal Description

TxD Transmitte Data, sends serial data to the communication link. The signal is set to a marking

state on hardware reset when the transmitter is empty or when loop mode operation is initiated.

RxD Receive Data, receives serial data from the communication link.

DTR Data Terminal Ready, indicates to the modem or data set that the on-board UART is ready to

establish a communication link.

DSR Data Set Ready, indicates that the modem or data set is ready to establish a communication

link.

RTS Request To Send, indicates to the modem or data set that the on-board UART is ready to

exchange data.

CTS Clear To Send, indicates that the modem or data set is ready to exchange data.

DCD Data Carrier Detect, indicates that the modem or data set has detected the data carrier.

RI Ring Indicator, indicates that the modem has received a telephone-ringing signal.

The connector pinout for each operation mode is defined in the following sections.

4.11.1 Com1 Pin Header Connector.

The pinout of Serial ports Com1 is as follows:

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull U/D Note

- I DCD 1 2 DSR I -

- I RxD 3 4 RTS O -

- O TxD 5 6 CTS I -

- O DTR 7 8 RI I -

- - PWR GND 9 10 5V PWR - - 1

Note 1: The Com1 header 5V supply is fused with a 1.1A resetable fuse.

A DB9 adapter (ribbon cable) can be used to make a DB9 pinout available.

4.11.2 Com2 Pin Header Connector.

The pinout of Serial ports Com2 is as follows:

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull U/D Note

- I DCD 1 2 DSR I -

- I RxD 3 4 RTS O -

- O TxD 5 6 CTS I -

- O DTR 7 8 RI I -

- - PWR GND 9 10 5V PWR - - 1

Note 1: The Com2 header 5V supply is fused with a 1.1A resetable fuse.

A DB9 adapter (ribbon cable) can be used to make a DB9 pinout available.

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4.12 Ethernet connectors.

The KT690/mITX boards supports 2 channels of 10/100/1000Mb Ethernet RTL8111B LAN controllers.

In order to achieve the specified performance of the Ethernet port, Category 5 twisted pair cables must be used with 10/100MB and Category 5E, 6 or 6E with 1Gb LAN networks.

The signals for the Ethernet ports are as follows:

Signal Description

MDI[0]+

MDI[0]-

In MDI mode, this is the first pair in 1000Base-T, i.e. the BI_DA+/- pair, and is the transmit pair in 10Base-T and 100Base-TX.

In MDI crossover mode, this pair acts as the BI_DB+/- pair, and is the receive pair in 10Base-T and 100Base-TX.

MDI[1]+

MDI[1]-

In MDI mode, this is the second pair in 1000Base-T, i.e. the BI_DB+/- pair, and is the receive pair in 10Base-T and 100Base-TX.

In MDI crossover mode, this pair acts as the BI_DA+/- pair, and is the transmit pair in 10Base-T and 100Base-TX.

MDI[2]+

MDI[2]-

In MDI mode, this is the third pair in 1000Base-T, i.e. the BI_DC+/- pair.

In MDI crossover mode, this pair acts as the BI_DD+/- pair.

MDI[3]+

MDI[3]-

In MDI mode, this is the fourth pair in 1000Base-T, i.e. the BI_DD+/- pair.

In MDI crossover mode, this pair acts as the BI_DC+/- pair.

Note: MDI = Media Dependent Interface.

4.12.1 Ethernet connectors (ETHER1 and ETHER2)

Ethernet connector 1 is mounted together with USB Ports 8 and 9. Ethernet connector 2 is mounted together with USB Ports 4 and 5.

The pinout of the RJ45 connector is as follows:

Signal PIN Type Ioh/Iol Note

MDI0+

MDI0-

MDI1+

MDI2-

MDI1MDI2+ MDI3+

MDI3-

8 7654321

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4.13 USB Connector (USB)

The KT690 boards contains one Enhanced Host Controller Interface (EHCI) host controllers that supports USB 2.0 allowing data transfers up to 480Mb/s. The KT690 boards also contains five Open Host Controller Interface (OHCI) controllers that support USB full-speed and low-speed signaling (USB 1.1). The KT690 boards supports a total of ten USB 2.0 ports. All ten ports are high-speed (USB 2.0), full-speed (USB 1.1), and low-speed (USB 1.1) capable and USB Legacy mode is supported.

Over-current detection on all ten USB ports is supported.

USB Port 0 and 2 are supplied on the USB0, USB2 frontpanel connector. USB Ports 1 and 3 are supplied on the internal FRONTPNL connector; please refer to the FRONTPNL connector section for the pin-out. USB Port 4 and 5 are supplied on the combined ETHER2, USB4, USB5 connector. USB Port 6 and 7 are supplied on the internal USB6, USB7 pinrow connector. USB Port 8 and 9 are supplied on the combined ETHER1, USB8, USB9 connector.

Note: It is recommended to use only High-/Full-Speed USB cable, specified in USB2.0 standard:

4.13.1 USB Connector 0/2 (USB0/2)

USB Ports 0 and 2 are supplied on the USB0, USB2 frontpanel connector.

Note

Pull U/D Ioh/Iol Type Signal

Signal

Type Ioh/Iol

Pull

U/D Note

1 2 3 4

1 - - PWR 5V/SB5V GND PWR - -

/15K 0.25/2 IO USB2- USB2+ IO 0.25/2 /15K

1 2 3 4

1 - - PWR 5V/SB5V GND PWR - -

/15K 0.25/2 IO USB0- USB0+ IO 0.25/2 /15K

Note 1: The 5V supply for the USB devices is on-board fused with a 2.0A reset-able fuse. The supply is

common for the two channels. SB5V is supplied during power down to allow wakeup on USB device activity. In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.

Signal Description

USB0+ USB0-

USB2+ USB2-

Differential pair works as Data/Address/Command Bus.

USB5V 5V supply for external devices. Fused with 2.0A reset-able fuse.

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4.13.2 USB Connector 4/5 (USB4/5)

USB Ports 4 and 5 are are supplied on the combined ETHER2, USB4, USB5 connector.

Note

Pull U/D Ioh/Iol Type Signal

Signal

Type Ioh/Iol

Pull

U/D Note

1 2 3 4

1 - - PWR 5V/SB5V GND PWR - -

/15K 0.25/2 IO USB4- USB4+ IO 0.25/2 /15K

1 2 3 4

1 - - PWR 5V/SB5V GND PWR - -

/15K 0.25/2 IO USB5- USB5+ IO 0.25/2 /15K

Note 1: The 5V supply for the USB devices is on-board fused with a 2.0A reset-able fuse. The supply is

common for the two channels. SB5V is supplied during power down to allow wakeup on USB device activity. In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.

Signal Description

USB4+ USB4-

USB5+ USB5-

Differential pair works as Data/Address/Command Bus.

USB5V 5V supply for external devices. Fused with 2.0A reset-able fuse.

4.13.3 USB Connector 6/7 (USB6/7)

USB Ports 6 and 7 are are supplied on the internal USB6, USB7 pinrow connector.

Note

Pull U/D Ioh/Iol Type

Signal

Signal Type Ioh/Iol

Pull U/D Note

1 - PWR 5V/SB5V 1 2 5V/SB5V PWR - 1

- IO USB6- 3 4 USB7- IO -

- IO USB6+ 5 6 USB7+ IO -

- PWR GND 7 8 GND PWR -

- - KEY 9 10 NC - -

Signal Description

USB6+ USB6-

USB7+ USB7-

Differential pair works as Data/Address/Command Bus.

USB5V 5V supply for external devices. Fused with 2.0A reset-able fuse.

Note 1: The 5V supply for the USB devices is on-board fused with a 2.0A reset-able fuse. The supply is common for the two channels. SB5V is supplied during power down to allow wakeup on USB device activity. In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.

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4.13.4 USB Connector 8/9 (USB8/9)

USB Ports 8 and 9 are supplied on the combined ETHER1, USB8, USB9 connector.

Note

Pull

U/D Ioh/Iol Type

Signal

Type Ioh/Iol

Pull

U/D Note

1 2 3 4

1 - - PWR 5V/SB5V GND PWR - -

/15K 0.25/2 IO USB9- USB9+ IO 0.25/2 /15K

1 2 3 4

1 - - PWR 5V/SB5V GND PWR - -

/15K 0.25/2 IO USB8- USB8+ IO 0.25/2 /15K

Note 1: The 5V supply for the USB devices is on-board fused with a 2.0A reset-able fuse. The supply is

common for the two channels. SB5V is supplied during power down to allow wakeup on USB device activity. In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.

Signal Description

USB8+ USB8-

USB9+ USB9-

Differential pair works as Data/Address/Command Bus.

USB5V 5V supply for external devices. Fused with 2.0A reset-able fuse.

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4.14 Audio Connector

The onboard Audio circuit implements 7.1+2 Channel High Definition Audio, featuring ten 24-bit stereo DACs and two 20-bit stereo ADCs. Thew Audio signals are made available on the Frontpanel stacked connector (Line in / Line out / MIC) and the onboard AUDIO_HEAD and CDROM Audioinput connectors.

4.14.1 Audio Line-in, Line-out and Microphone

Audio Line-in, Line-out and Microphone are available in the stacked audio jack connector.

IN Signal Type Note

TIP LINE1-IN-L IA 1

RING LINE1-IN-R IA 1

SLEEVE GND PWR

TIP FRONT-OUT-L OA

RING FRONT-OUT-R OA

SLEEVE GND PWR

TIP MIC1-L IA 1

RING MIC1-R IA 1

SLEEVE GND PWR

Note 1: Signals are shorted to GND internally in the connector, when jack-plug not inserted.

4.14.2 CD-ROM Audio input (CDROM)

CD-ROM audio input may be connected to this connector. It may also be used as a secondary line-in signal.

PIN Signal Type Ioh/Iol Pull

U/D

Note

1 CD_Left IA - - 1 2 CD_GND IA - - 3 CD_GND IA - - 4 CD_Right IA - - 1

Note 1: The definition of which pins are use for the Left and Right channels is not a worldwide accepted standard. Some CDROM cable kits expect reverse pin order.

Signal Description

CD_Left

CD_Right

Left and right CD audio input lines or secondary Line-in.

CD_GND Analogue GND for Left and Right CD.

(This analogue GND is not shorted to the general digital GND on the board).

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4.14.3 AUDIO Header (AUDIO_HEAD)

Note

Pull U/D

Ioh/

Iol

Type Signal PIN Signal Type

Ioh/

Iol

Pull U/D

Note

LFE-OUT 1 2 CEN-OUT AAGND 3 4 AAGND FRONT-OUT-L 5 6 FRONT-OUT-R AAGND 7 8 AAGND REAR-OUT-L 9 10 REAR-OUT-R SIDE-OUT-L 11 12 SIDE-OUT-R AAGND 13 14 AAGND MIC1-L 15 16 MIC1-R AAGND 17 18 AAGND LINE1-IN-L 19 20 LINE1-IN-R NC 21 22 AAGND

- - PWR GND 23 24 SPDIF-IN SPDIF-OUT 25 26 GND PWR - -

Signal Description Note

FRONT-OUT-L Front Speakers (Speaker Out Left).

FRONT-OUT-R Front Speakers (Speaker Out Right).

REAR-OUT-L Rear Speakers (Surround Out Left).

REAR-OUT-R Rear Speakers (Surround Out Right).

SIDE-OUT-L Side speakers (Surround Out Left)

SIDE-OUT-R Side speakers (Surround Out Right)

CEN-OUT Center Speaker (Center Out channel).

LFE-OUT Subwoofer Speaker (Low Freq. Effect Out).

NC No connection

MIC1 MIC Input 1

LINE1-IN Line in 1 signals

F-SPDIF-IN S/PDIF Input

F-SPDIF-OUT S/PDIF Output

AAGND Audio Analogue ground

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4.15 Fan connectors , FAN_CPU and FAN_SYS.

The FAN_CPU is used for connection of the active cooler for the CPU. The FAN_SYS can be used to power, control and monitor a fan for chassis ventilation etc.

The 4pin header supports connection of 3-pin FANs, but it is recommended to use the 4-pin type for optimized FAN speed control. The 3- or 4-pin mode is controlled in the BIOS setup menu.

4-pin Mode:

Signal

Type Ioh/Iol

Pull U/D

Note

1 CONTROL O - - 2 SENSE I - - 3 +12 V PWR - - 4 GND PWR - -

Signal description:

Signal Description

CONTROL PWM signal for FAN speed control

SENSE Tacho signal from the fan for supervision. The signals shall be generated by an open

collector transistor or similar. On board is a pull-up resistor 4K7 to +12V. The signal has to be pulses, typically 2 Hz per rotation.

12V +12V supply for fan. A maximum of 2000 mA can be supplied from this pin.

GND Power Supply GND signal

3-pin Mode:

Signal

Type Ioh/Iol

Pull U/D

Note

2 SENSE I - - 3 +12 V PWR - - 4 GND PWR - -

Signal description:

Signal Description

SENSE Tacho signal from the fan for supervision. The signals shall be generated by an open

collector transistor or similar. On board is a pull-up resistor 4K7 to +12V. The signal has to be pulses, typically 2 Hz per rotation.

12V

+12V supply for fan, can be turned on/off or modulated (PWM) by the chipset. A maximum of 2000 mA can be supplied from this pin.

GND Power Supply GND signal

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4.16 The Clear CMOS Jumper, Clr-CMOS.

The Clr-CMOS Jumper is used to clear the CMOS content.

↑ CPU location ↑

No Jumper installed 1 2 3 (Pin numbers)

Jumper normal position

•

Jumper in Clear CMOS position

•

To clear all CMOS settings, including Password protection, move the CMOS_CLR jumper (with or without power on the system) for approximately 1 minute.

Alternatively if no jumper is available, turn off power and remove the battery for 1 minute, but be careful to orientate the battery corretly when reinserted.

4.17 TPM connector (unsupported).

Note

Pull U/D Ioh/Iol Type

Signal

Type Ioh/Iol

Pull U/D Note

- - PWR LPC CLK 1 2 GND

- - PWR LPC FRAME# 3 KEY LPC RST# 5 6 +5V LPC AD3 7 8 LPC AD2 +3V3 9 10 LPC AD1 LPC AD0 11 12 GND SMB_CLK 13 14 SMB_DATA SB3V3 15 16 LPC SERIRQ GND 17 18 CLKRUN# SUS_STAT# 19 20 LPC IRQ#

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4.18 Front Panel connector (FRONTPNL).

Note

Pull U/D Ioh/Iol Type

Signal

Type Ioh/Iol

Pull U/D Note

USB13_5V 1 2 USB13_5V USB1- 3 4 USB3- USB1+ 5 6 USB3+

- - PWR GND 7 8 GND PWR - -

- - - KEY 10 LINE2-IN-L - - -

- - PWR +5V 11 12 +5V PWR - - OC HD_LED 13 14 SUS_LED

- - PWR GND 15 16 PWRBTN_IN# RSTIN# 17 18 GND PWR - - SB3V3 19 20 LINE2-IN-R - - - AGND 21 22 AGND

1 MIC2-L 23 24 MIC2-R 1

Note 1: Unsupported inputs, leave these inputs unconnected.

Signal Description

USB13_5V

+5V supply for the USB devices on USB Port 1 and 3 is on-board fused with a 1.5A reset-able fuse. The supply is common for the two channels. SB5V is supplied during power down to allow wakeup on USB device activity.

USB1+

USB1-

Universal Serial Bus Port 1 Differentials: Bus Data/Address/Command Bus.

USB3+

USB3-

Universal Serial Bus Port 3 Differentials: Bus Data/Address/Command Bus.

+5V

Maximum load is 1A or 2A per pin if using IDC connectorfladkabel or crimp terminals respectively.

HD_LED Hard Disk Activity LED (active low signal). Output is via 475 to OC.

SUS_LED Suspend Mode LED (active high signal). Output is via 475.

PWRBTN_IN# Power Button In. Toggle this signal low to start the ATX / BTX PSU and boot the board.

RSTIN#

Reset Input. When pulled low for minimum 16mS the reset process will be initiated. The reset process continues even though the Reset Input is kept low.

LINE2-IN Line in 2 signals

MIC2 MIC2-L and MIC2-R are unsupported. Leave these terminals unconnected.

SB3V3 Standby 3.3V voltage

AGND Analogue Ground for Audio

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4.19 Feature Connector (FEATURE)

Note

Pull U/D Ioh/Iol Type

Signal

Type Ioh/Iol

Pull U/D Note

2 2M/ - I INTRUDER# 1 2 GND PWR - -

EXT_ISAIRQ# 3 4 EXT_SMI# I PWR_OK 5 6 SB5V PWR - -

- - PWR SB3V3 7 8 EXT_BAT PWR - -

- - PWR +5V 9 10 GND PWR - - 1 4K7/ /12mA IOT GPIO0 11 12 GPIO1 IOT /12mA 2K7/ 1 1 4K7/ /12mA IOT GPIO2 13 14 GPIO3 IOT /12mA 2K7/ 1 1 4K7/ /12mA IOT GPIO4 15 16 GPIO5 IOT /12mA 2K7/ 3 3 4K7/ /12mA IOT GPIO6 17 18 GPIO7 IOT /12mA 2K7/ 3

- - PWR GND 19 20 FAN3OUT

FAN3IN 21 22 +12V PWR - - TEMP3IN 23 24 VREF

- - PWR GND 25 26 IRRX

IRTX 27 28 GND PWR - -

1 2K7/ SMBC 29 30 SMBD 2K7/ 1

Note 1: Pull-up to +3V3Dual (+3V3 or SB3V3). Note 2: Pull-up to RTC-Voltage. Note 3: Pull-up to +3V3.

Signal Description

INTRUDER#

INTRUDER, may be used to detect if the system case has been opened. This signal’s status is readable, so it may be used like a GPI when the Intruder switch is not needed.

EXT_ISAIRQ# EXTernal ISA IRQ, (active low input) can activate standard AT-Bus IRQ-interrupt.

EXT_SMI# External SMI, (active low input) signal can activate SMI interrupt.

PWR_OK PoWeR OK, signal is high if no power failures is detected.

SB5V StandBy +5V supply.

SB3V3 Max. load is 0.75A (1.5A < 1 sec.)

EXT_BAT

(EXTernal BATtery) the + terminal of an external primary cell battery can be connected to this pin. The – terminal of the battery shall be connected to GND (etc. pin 10). The external battery is protected against charging and can be used with or without the on board battery installed. The external battery voltage shall be in the range: 2.5 - 4.0 V DC. Current draw is 3µA when PSU is disconnected.

+5V Max. load is 0.75A (1.5A < 1 sec.)

GPIO0..7

General Purpose Inputs / Output. These Signals may be controlled or monitored through the use of the KONTRON API (Application Programming Interface) available for WinXP and Win2000.

FAN3OUT

FAN 3 speed control OUTput. This analogue voltage output signal can be set to output voltages from 0 – 3V3 to control the Fan’s speed.. For more information please look into the datasheet for the Winbond I/O controller W83627.

FAN3IN FAN3 Input. 0V to +3V3 amplitude Fan 3 tachometer input.

+12V Max. load is 0.75A (1.5A < 1 sec.)

TEMP3IN

Temperature sensor 3 input. (Recommended: Transistor 2N3904, having emitter connected to GND (pin 25), collector and basis shorted and connected to pin23 (Temp3In). Further a resistor 30K/1% shall be connected between pin 23 and pin 24 (Vref). (Precision +/- 3ºC)

VREF Voltage REFerence, reference voltage to be used with TEMP3IN input.

IRRX IR Receive input (IrDA 1.0, SIR up to 1.152K bps)

IRTX IR Transmit output (IrDA 1.0, SIR up to 1.152K bps)

SMBC SMBus Clock signal

SMBD SMBus Data signal

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4.20 PCI Slot Connector

Terminal

Note Type Signal

S C

Signal Type Note

PWR -12V F01 E01 TRST# O O TCK F02 E02 +12V PWR PWR GND F03 E03 TMS O NC F04 E04 TDI O PWR +5V F05 E05 +5V PWR PWR +5V F06 E06 INTA# I I INTB# F07 E07 INTC# I I INTD# F08 E08 +5V PWR NC F09 E09 NC NC F10 E10 +5V (I/O) PWR NC F11 E11 NC O PWR GND F12 E12 GND PWR PWR GND F13 E13 GND PWR NC F14 E14 3V3 OT PWR GND F15 E15 RST# O O PCICLK F16 E16 +5V (I/O) PWR PWR GND F17 E17 GNT0# OT I REQ0# F18 E18 GND PWR PWR +5V (I/O) F19 E19 PME# O IOT AD31 F20 E20 AD30 IOT IOT AD29 F21 E21 +3.3V PWR PWR GND F22 E22 AD28 IOT IOT AD27 F23 E23 AD26 IOT IOT AD25 F24 E24 GND PWR PWR +3.3V F25 E25 AD24 IOT IOT C/BE3# F26 E26 IDSEL IOT IOT AD23 F27 E27 +3.3V PWR PWR GND F28 E28 AD22 IOT IOT AD21 F29 E29 AD20 IOT IOT AD19 F30 E30 GND PWR

PWR +3.3V F31 E31 AD18 IOT

IOT AD17 F32 E32 AD16 IOT IOT C/BE2# F33 E33 +3.3V PWR PWR GND F34 E34 FRAME# IOT IOT IRDY# F35 E35 GND PWR PWR +3.3V F36 E36 TRDY# IOT IOT DEVSEL# F37 E37 GND PWR PWR GND F38 E38 STOP# IOT IOT LOCK# F39 E39 +3.3V PWR IOT PERR# F40 E40 SMB_CLK IO PWR +3.3V F41 E41 SMB_DATA IO IOC SERR# F42 E42 GND PWR PWR +3.3V F43 E43 PAR IOT IOT C/BE1# F44 E44 AD15 IOT IOT AD14 F45 E45 +3.3V PWR PWR GND F46 E46 AD13 IOT IOT AD12 F47 E47 AD11 IOT IOT AD10 F48 E48 GND PWR PWR GND F49 E49 AD09 IOT

SOLDER SIDE COMPONENT SIDE

IOT AD08 F52 E52 C/BE0# IOT IOT AD07 F53 E53 +3.3V PWR PWR +3.3V F54 E54 AD06 IOT IOT AD05 F55 E55 AD04 IOT IOT AD03 F56 F56 GND PWR PWR GND F57 E57 AD02 IOT IOT AD01 F58 E58 AD00 IOT PWR +5V (I/O) F59 E59 +5V (I/O) PWR

8K2/ PU IOT ACK64# F60 E60 REQ64# IOT 8K2/ PU

PWR +5V F61 E61 +5V PWR PWR +5V F62 E62 +5V PWR

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4.20.1 Signal Description –PCI Slot Connector

SYSTEM PINS

CLK

Clock provides timing for all transactions on PCI and is an input to every PCI device. All other PCI signals, except RST#, INTA#, INTB#, INTC#, and INTD#, are sampled on the rising edge of CLK and all other timing parameters are defined with respect to this edge. PCI operates at 33 MHz.

RST#

Reset is used to bring PCI-specific registers, sequencers, and signals to a consistent state. What effect RST# has on a device beyond the PCI sequencer is beyond the scope of this specification, except for reset states of required PCI configuration registers. Anytime RST# is asserted, all PCI output signals must be driven to their benign state. In general, this means they must be asynchronously tri-stated. SERR# (open drain) is floated. REQ# and GNT# must both be tri-stated (they cannot be driven low or high during reset). To prevent AD, C/BE#, and PAR signals from floating during reset, the central resource may drive these lines during reset (bus parking) but only to a logic low level–they may not be driven high. RST# may be asynchronous to CLK when asserted or deasserted. Although asynchronous, deassertion is guaranteed to be a clean, bounce-free edge. Except for configuration accesses, only devices that are required to boot the system will respond after reset.

ADDRESS AND DATA

AD[31::00]

Address and Data are multiplexed on the same PCI pins. A bus transaction consists of an address phase followed by one or more data phases. PCI supports both read and write bursts. The address phase is the clock cycle in which FRAME# is asserted. During the address phase AD[31::00] contain a physical address (32 bits). For I/O, this is a byte address; for configuration and memory, it is a DWORD address. During data phases AD[07::00] contain the least significant byte (lsb) and AD[31::24] contain the most significant byte (msb). Write data is stable and valid when IRDY# is asserted and read data is stable and valid when TRDY# is asserted. Data is transferred during those clocks where both IRDY# and TRDY# are asserted.

C/BE[3::0]#

Bus Command and Byte Enables are multiplexed on the same PCI pins. During the address phase of a transaction, C/BE[3::0]# define the bus command. During the data phase C/BE[3::0]# are used as Byte Enables. The Byte Enables are valid for the entire data phase and determine which byte lanes carry meaningful data. C/BE[0]# applies to byte 0 (lsb) and C/BE[3]# applies to byte 3 (msb).

PAR

Parity is even parity across AD[31::00] and C/BE[3::0]#. Parity generation is required by all PCI agents. PAR is stable and valid one clock after the address phase. For data phases, PAR is stable and valid one clock after either IRDY# is asserted on a write transaction or TRDY# is asserted on a read transaction. Once PAR is valid, it remains valid until one clock after the completion of the current data phase. (PAR has the same timing as AD[31::00], but it is delayed by one clock.) The master drives PAR for address and write data phases; the target drives PAR for read data phases.

INTERFACE CONTROL PINS

FRAME#

Cycle Frame is driven by the current master to indicate the beginning and duration of an access. FRAME# is asserted to indicate a bus transaction is beginning. While FRAME# is asserted, data transfers continue. When FRAME# is deasserted, the transaction is in the final data phase or has completed.

IRDY#

Initiator Ready indicates the initiating agent’s (bus master’s) ability to complete the current data phase of the transaction. IRDY# is used in conjunction with TRDY#. A data phase is completed on any clock both IRDY# and TRDY# are sampled asserted. During a write, IRDY# indicates that valid data is present on AD[31::00]. During a read, it indicates the master is prepared to accept data. Wait cycles are inserted until both IRDY# and TRDY# are asserted together.

TRDY#

Target Ready indicates the target agent’s (selected device’s) ability to complete the current data phase of the transaction. TRDY# is used in conjunction with IRDY#. A data phase is completed on any clock both TRDY# and IRDY# are sampled asserted. During a read, TRDY# indicates that valid data is present on AD[31::00]. During a write, it indicates the target is prepared to accept data. Wait cycles are inserted until both IRDY# and TRDY# are asserted together.

STOP#

Stop indicates the current target is requesting the master to stop the current transaction.

LOCK#

Lock indicates an atomic operation that may require multiple transactions to complete. When LOCK# is asserted, non-exclusive transactions may proceed to an address that is not currently locked. A grant to start a transaction on PCI does not guarantee control of LOCK#. Control of LOCK# is obtained under its own protocol in conjunction with GNT#. It is possible for different agents to use PCI while a single master retains ownership of LOCK#. If a device implements Executable Memory, it should also implement LOCK# and guarantee complete access exclusion in that memory. A target of an access that supports LOCK# must provide exclusion to a minimum of 16 bytes (aligned). Host bridges that have system memory behind them should implement LOCK# as a target from the PCI bus point of view and optionally as a master.

IDSEL

Initialization Device Select is used as a chip select during configuration read and write transactions.

DEVSEL#

Device Select, when actively driven, indicates the driving device has decoded its address as the target of the current access. As an input, DEVSEL# indicates whether any device on the bus has been selected.

(continues)

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ARBITRATION PINS (BUS MASTERS ONLY)

REQ#

Request indicates to the arbiter that this agent desires use of the bus. This is a point to point signal. Every master has its own REQ# which must be tri-stated while RST# is asserted.

GNT#

Grant indicates to the agent that access to the bus has been granted. This is a point to point signal. Every master has its own GNT# which must be ignored while RST# is asserted. While RST# is asserted, the arbiter must ignore all REQ# lines since they are tri-stated and do not contain a valid request. The arbiter can only perform arbitration after RST# is deasserted. A master must ignore its GNT# while RST# is asserted. REQ# and GNT# are tri-state signals due to power sequencing requirements when 3.3V or 5.0V only add-in boards are used with add-in boards that use a universal I/O buffer.

ERROR REPORTING PINS.

The error reporting pins are required by all devices and maybe asserted when enabled

PERR#

Parity Error is only for the reporting of data parity errors during all PCI transactions except a Special Cycle. The PERR# pin is sustained tri-state and must be driven active by the agent receiving data two clocks following the data when a data parity error is detected. The minimum duration of PERR# is one clock for each data phase that a data parity error is detected. (If sequential data phases each have a data parity error, the PERR# signal will be asserted for more than a single clock.) PERR# must be driven high for one clock before being tri-stated as with all sustained tri-state signals. There are no special conditions when a data parity error may be lost or when reporting of an error may be delayed. An agent cannot report a PERR# until it has claimed the access by asserting DEVSEL# (for a target) and completed a data phase or is the master of the current transaction.

SERR#

System Error is for reporting address parity errors, data parity errors on the Special Cycle command, or any other system error where the result will be catastrophic. If an agent does not want a non-maskable interrupt (NMI) to be generated, a different reporting mechanism is required. SERR# is pure open drain and is actively driven for a single PCI clock by the agent reporting the error. The assertion of SERR# is synchronous to the clock and meets the setup and hold times of all bused signals. However, the restoring of SERR# to the deasserted state is accomplished by a weak pullup (same value as used for s/t/s) which is provided by the system designer and not by the signaling agent or central resource. This pull-up may take two to three clock periods to fully restore SERR#. The agent that reports SERR#s to the operating system does so anytime SERR# is sampled asserted.

INTERRUPT PINS (OPTIONAL).

Interrupts on PCI are optional and defined as “level sensitive,” asserted low (negative true), using open drain output drivers. The assertion and deassertion of INTx# is asynchronous to CLK. A device asserts its INTx# line when requesting attention from its device driver. Once the INTx# signal is asserted, it remains asserted until the device driver clears the pending request. When the request is cleared, the device deasserts its INTx# signal. PCI defines one interrupt line for a single function device and up to four interrupt lines for a multi-function device or connector. For a single function device, only INTA# may be used while the other three interrupt lines have no meaning.

INTA#

Interrupt A is used to request an interrupt.

INTB#

Interrupt B is used to request an interrupt and only has meaning on a multi-function device.

INTC#

Interrupt C is used to request an interrupt and only has meaning on a multi-function device.

INTD#

Interrupt D is used to request an interrupt and only has meaning on a multi-function device.

4.20.2 KT690 PCI IRQ & INT routing

Board type Slot IDSEL INTA INTB INTC INTD KT690/mITX

1 AD16 INT_PIRQ#A INT_PIRQ#B INT_PIRQ#C INT_PIRQ#D

KT690-FW/mITX

1 AD16 INT_PIRQ#A INT_PIRQ#B INT_PIRQ#C INT_PIRQ#D

When using the 820982 “PCI Riser - Flex - 2slot w. arbiter” the lower slot has IDSEL / IRQs routed straight through and the top slot has the routing: IDSEL=AD22, INT_PIRQ#F, INT_PIRQ#G, INT_PIRQ#H, INT_PIRQ#E. 820982 PCI Riser shall be plugged into Slot #1.

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5. Onboard Connectors

Onboard Connectors Mating Connectors

Connector

Manufacturer Type no. Manufacturer Type no.

FAN_SYS, Molex 22-23-2031 AMP 1375820-3

FAN_CPU

KBDMSE Molex 22-23-2061 Molex 22-01-2065

CDROM Foxconn HF1104E Molex 50-57-9404

Molex 70543-0038

SATA0-3 Molex 67491-0020 Molex 67489-8005

Kontron KT 821035 (cable kit)

IEEE1394_0 IEEE1394_1

Foxconn HC11051-P9 Kontron KT 821040 (cable kit)

ATXPWR Foxconn HM2510E Molex 39-01-2205

COM1 + COM2 Foxconn HL20051 Molex 90635-1103

Kontron KT 821016 (cable kit)

Kontron KT 821017 (cable kit)

USB6 USB7

Foxconn HC11051-P9 Kontron KT 821401 (cable kit)

PRINTER Foxconn HL2213F Molex 90635-1263

Kontron KT 821031 (cable kit)

AUDIO_HEAD Molex 87831-2620 Molex 51110-2651

Kontron KT 821043 (cable kit)

FRONTPNL Foxconn HL20121 Molex 90635-1243

Kontron KT 821042 (cable kit)

FEATURE Molex 87831-3020 Molex 51110-3051

Kontron KT 821041 (cable kit)

LVDS Don Connex C44-40BSB1-G Don Connex A32-40-C-G-B-1

Kontron KT 821515 (cable kit)

Kontron KT 821155 (cable kit)

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6. System Ressources

6.1 Memory map

Address range (hex) Size (bytes) Description

00000000 0009FFFF 655359 System board 000A0000 000BFFFF 131071 ATI Radeon X1200 Series 000A0000 000BFFFF 131071 PCI bus 000A0000 000BFFFF 131071 PCI standart PCI-to-PCI brigde 000C0000 000CFFFF 65535 System board 000D0000 000DFFFF 65535 PCI bus 000E0000 000FFFFF 131071 System board 00100000 37FFFFFF 938475519 System board 38000000 3FFFFFFF 134217727 Motherboard resources 38000000 DFFFFFFF 2818572287 PCI bus E0000000 EFFFFFFF 268435455 Motherboard resources F0000000 F7FFFFFF 134217727 ATI Radeon X1200 Series F0000000 F7FFFFFF 134217727 PCI standart PCI-to-PCI brigde F0000000 FED44FFF 248795135 PCI bus FE7F4000 FE7F7FFF 16383 Microsoft UAA Bus Driver for High Definition Audio FE7FA000 FE7FAFFF 4095 Standard OpenHCD USB Host Controller FE7FB000 FE7FBFFF 4095 Standard OpenHCD USB Host Controller FE7FC000 FE7FCFFF 4095 Standard OpenHCD USB Host Controller FE7FD000 FE7FDFFF 4095 Standard OpenHCD USB Host Controller FE7FE000 FE7FEFFF 4095 Standard OpenHCD USB Host Controller FE7FF000 FE7FFFFF 4095 Standard Enchanced PCI to USB Host Controller FE7FF800 FE7FFBFF 1023 Standart Dual Channel PCI IDE Controller FE800000 FE8FFFFF 1048575 ATI Radeon X1200 Series FE800000 FE9FFFFF 2097151 PCI standart PCI-to-PCI brigde FE9F0000 FE9FFFFF 65535 ATI Radeon X1200 Series FEA00000 FEAFFFFF 1048575 PCI standart PCI-to-PCI brigde FEAFF000 FEAFFFFF 4095 Realtek RTL8168/8111 PCI-E Gigabit Ethernet NIC FEB00000 FEBFFFFF 1048575 PCI standart PCI-to-PCI brigde FEBFF000 FEBFFFFF 4095 Realtek RTL8168/8111 PCI-E Gigabit Ethernet NIC FEC00000 FEC00FFF 4095 Motherboard resources FED00000 FED003FF 1023 High precision event timer FED45000 FFFFFFFF 19640319 System board FEE00000 FEE00FFF 4095 Motherboard resources FFB80000 FFBFFFFF 524287 Motherboard resources

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6.2 PCI devices

Bus # Device # Function # Vendor

ID

Device

ID

IDSEL Chip Device Function

0 0 0 1002h 7910h SB600 Host brigde 0 1 0 1002h 7912h SB600 Pci to Pci Brigde 0 6 0 1002h 7916h SB600 Pci to Pci Brigde 0 7 0 1002h 7917h SB600 Pci to Pci Brigde 0 18 0 1002h 4380h SB600 IDE Controller 0 19 0 1002h 4387h SB600 USB 0 19 1 1002h 4388h SB600 USB 0 19 2 1002h 4389h SB600 USB 0 19 3 1002h 438Ah SB600 USB 0 19 4 1002h 438Bh SB600 USB 0 19 5 1002h 4386h SB600 USB 0 20 0 1002h 4385h SB600 SMBus 0 20 1 1002h 438Ch SB600 IDE Controller 0 20 2 1002h 4383h SB600 HD Audio 0 20 3 1002h 438Dh SB600 ISA Brigde 0 20 4 1002h 4384h SB600 Pci to Pci Brigde 0 24 0 1002h 1100h SB600 Host brigde 0 24 1 1022h 1101h SB600 Host brigde 0 24 2 1022h 1102h SB600 Host brigde 0 24 3 1022h 1103h SB600 Host brigde 1 5 0 1022h 791Fh RS690 VGA Controller 2 0 0 10ECh 8168h RTL8111 Ethernet 3 0 0 10ECh 8168h RTL8111 Ethernet 4 0 0 - - - PCI Slot

* - - - - - PCI-E Slot

When a PCI-E card is used it could change the BUS number on other PCI-E and PCI devices like RTL8111b. Note: PCI slot supports PCI BUS Mastering.

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6.3 Interrupt Usage

IRQ

Onboard system parity errors and IOCHCHK signal activation

Onboard Timer 0 Interrupt

Onboard Keyboard Interrupt

Used for Cascading IRQ8-IRQ15

May be used by onboard Serial Port A

May be used by onboard Serial Port B / IrDA Port

May be used by onboard Parallel Port

Used by onboard Real Time Clock Alarm

May be used by onboard P/S 2 support

Used for Onboard co-processor support

May be used for SATA RAID controller

May be used for onboard Sound System

May be used for PCI Express Root Port

May be used by onboard USB controller

May be used by onboard Ethernet controller 1

May be used by onboard Ethernet controller 2

May be used by onboard VGA Controller

May be used by onboard IDE Controller

May be used by Microsoft ACPI-Compliant System

Available on PCI slots as IRQA-IRQD depending on selections in BIOS

Notes

NMI

• ?

IRQ0

•

IRQ1

•

IRQ2

•

IRQ3

•

1, 2

IRQ4

•

1, 2

IRQ5

• 1, 2

IRQ6

1, 2

IRQ7

•

• 1, 2

IRQ8

•

IRQ9

•

• 1, 2

IRQ10

• 1, 2

IRQ11

• 1, 2

IRQ12

•

1

IRQ13

•

IRQ14

1

IRQ15

1

IRQ16

• •

3

IRQ17

•

3

IRQ18

• • •

3

IRQ19

• •

3

IRQ20

3

IRQ21

3

IRQ22

•

3

IRQ23

3

IRQ24

3

IRQ25

3

IRQ26

3

Notes:

1. Availability of the shaded IRQs depends on the setting in the BIOS. According to the PCI Standard, PCI Interrupts IRQA-IRQD can be shared.

2. These IRQ´s are managed by the PnP handler and are subject to change during system initialisation.

3. IRQ16 to IRQ26 are APIC interrupts

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6.4 I/O Map

Address (hex) Size Description

0020 0021 2 Programmable interupt controller 0040 0043 4 System timer 0060 0060 1 Standard Keyboard 0061 0061 1 System speaker 0064 0064 1 Standard Keyboard 0070 0071 2 System CMOS/Real time clock 00F0 00FF 16 Numeric data processor 0170 0177 8 Secondary IDE Channel 01F0 01F7 8 Primary IDE Channel 0274 0277 4 ISAPNP Read Data Port 0279 0279 1 ISAPNP Read Data Port 02F8 02FF 8 Com2 0376 0376 1 Secondary IDE Channel 0378 037F 8 LPT1 03B0 03BB 12 PCI-to-PCI brigde

03C0 03DF 32 PCI-to-PCI brigde

03F6 03F6 1 Primary IDE Channel 0A79 0A79 1 ISAPNP Read Data Port 0B00 0B0F 16 ATI SMBus 7000 700F 16 Standart Dual Channel PCI IDE Controller 8000 8003 4 Standart Dual Channel PCI IDE Controller 9000 9007 8 Standart Dual Channel PCI IDE Controller A000 A003 4 Standart Dual Channel PCI IDE Controller

B000 B007 8 Standart Dual Channel PCI IDE Controller C000 CFFF 4096 PCI-to-PCI brigde C000 C0FF 256 ATI Radeon X1200 Series D000 DFFF 4096 PCI-to-PCI brigde D800 D8FF 256 Realtek RTL8168/8111 PCI-E Gigabit Ethernet NIC

E000 EFFF 4096 PCI-to-PCI brigde

E800 E8FF 256 Realtek RTL8168/8111 PCI-E Gigabit Ethernet NIC 2

FF00 FF0F 16 Standart Dual Channel PCI IDE Controller

Notes: This is the IO map after a standard Windows XP SP2 installation

6.5 DMA Channel Usage

DMA Channel Number Data Width System Ressources

0 8 or 16 bits Available 1 8 or 16 bits Available 2 8 or 16 bits Available 3 8 or 16 bits Available 4 8 or 16 bits DMA Controller 5 16 bits Available 6 16 bits Available 7 16 bits Available

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7. Overview of BIOS features

This Manual section details specific BIOS features for the KT690 boards. The KT690 boards are based on the AMI BIOS core version 8.10 with Kontron BIOS extensions.

7.1 System Management BIOS (SMBIOS / DMI)

SMBIOS is a Desktop Management Interface (DMI) compliant method for managing computers in a managed network.

The main component of SMBIOS is the Management Information Format (MIF) database, which contains information about the computing system and its components. Using SMBIOS, a system administrator can obtain the system types, capabilities, operational status, and installation dates for system components.

The MIF database defines the data and provides the method for accessing this information. The BIOS enables applications such as third-party management software to use SMBIOS.

The BIOS stores and reports the following SMBIOS information:

• BIOS data, such as the BIOS revision level

• Fixed-system data, such as peripherals, serial numbers, and asset tags

• Resource data, such as memory size, cache size, and processor speed

• Dynamic data, such as event detection and error logging

Non-Plug and Play operating systems, such as Windows NT*, require an additional interface for obtaining the SMBIOS information. The BIOS supports an SMBIOS table interface for such operating systems. Using this support, an SMBIOS service-level application running on a non-Plug and Play operating system can obtain the SMBIOS information.

7.2 Legacy USB Support

Legacy USB support enables USB devices such as keyboards, mice, and hubs to be used even when the operating system’s USB drivers are not yet available. Legacy USB support is used to access the BIOS Setup program, and to install an operating system that supports USB. By default, Legacy USB support is set to Enabled.

Legacy USB support operates as follows:

1. When you apply power to the computer, legacy support is disabled.

2. POST begins.

3. Legacy USB support is enabled by the BIOS allowing you to use a USB keyboard to enter and configure the BIOS Setup program and the maintenance menu.

4. POST completes.

5. The operating system loads. While the operating system is loading, USB keyboards and mice are recognized and may be used to configure the operating system. (Keyboards and mice are not recognized during this period if Legacy USB support was set to Disabled in the BIOS Setup program.)

6. After the operating system loads the USB drivers, all legacy and non-legacy USB devices are recognized by the operating system, and Legacy USB support from the BIOS is no longer used.

To install an operating system that supports USB, verify that Legacy USB support in the BIOS Setup program is set to Enabled and follow the operating system’s installation instructions.

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8. BIOS Configuration / Setup

8.1 Introduction

The BIOS Setup is used to view and configure BIOS settings for the KT690 board. The BIOS Setup is accessed by pressing the DEL key after the Power-On Self-Test (POST) memory test begins and before the operating system boot begins. The Menu bar look like this:

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

The available keys for the Menu screens are:

Select Menu: <> or <> Select Item: <> or <> Select Field: <Tab> Change Field: <+> or <-> Help: <F1> Save and Exit: <F10> Exits the Menu: <Esc>

Please note that in the following the different BIOS Features will be described as having some options. These options will be selected automatically when loading either Failsafe Defaults or Optimal Defaults. The Default options will be indicated by the option in bold, but please notice that when Failsafe Defaults are loaded a few of the options, marked with “*”, are now the default option.

8.2 Main Menu

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

System Overview AMIBIOS

Version : 08.00.14 Build Date: 25/06/08 ID : KT690007 PCB ID : 82 Serial # : 00615444 Part # : 61620001

Processor

AMD Turion(tm) 64 X2 Mobile Technology TL-52 Speed : 1600MHz Count : 2

System Memory

Size : 896MB

System Time [10:18:15] System Date [25/06/2008]

Use [ENTER], [TAB] or [SHIFT-TAB] to select a field.

Use [+] or [-] to configure system Time.

<- Select Screen || Select Item +- Change Field Tab Select Field F1 General Help F10 Save and Exit ESC Exit

Main Menu Selections

You can make the following selections. Use the sub menus for other selections.

Feature Options Description

System Time HH:MM:SS Set the system time.

System Date MM/DD/YYYY Set the system date.

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8.3 Advanced Menu

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

Advanced Settings

> > > > > > > > > > > >

Warning: Setting wrong values in below sections may cause system to malfunction.

CPU Configuration IDE Configuration LAN Configuration Floppy Configuration SuperIO Configuration Hardware Health Configuration Voltage Monitor ACPI Configuration Remote Access Configuration Trusted Computing USB Configuration Clock Generator Settings

Configure CPU.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

8.3.1 Advanced settings – CPU Configuration

BIOS SETUP UTILITY

Advanced

CPU Configure

Module Version –13.14 AGESA Version: 02.08.13 Physical Count: 1 Logical Count : 2

AMD Turion(tm) 64 X2 Mobile Technology TL-52 Revision: F2 Cache L1 : 256 KB Cache L2 : 1024 KB Speed : 1600MHz Current FSB Multiplier: 8x uCode Patch Level : 0x62 Able to Change Freq. : Yes Maximum FSB Multiplier: 8x

Secure Virtual Machine Mode [Enabled] Runtime Legacy PSB [Disabled] C1E Support [Disabled]

Enable/Disable Secure Virtual Mode (SVM)

<- Select Screen || Select Item +- Change Option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Secure Virtual Machine Mode

Enabled

Disabled

Enable/Disable Secure Virtual Mode (SVM)

Runtime Legacy PSB Enabled

Disabled

Enable/disable the generation of Power State block for use of PowerNow™ driver in single core system

C1E Support Enabled

Disabled

Enable/disable C1E support.

KT690 Family

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8.3.2 Advanced settings – IDE Configuration

BIOS SETUP UTILITY

Advanced

IDE Configuration

OnBoard PCI IDE Controller [Primary]

OnChip SATA Type [Enabled] OnChip SATA Channel [Native IDE]

Primary IDE Master : [Hard Disk] Secondary IDE Master : [Not Detected] Third IDE Master : [Not Detected] Third IDE Slave : [Not Detected] Fourth IDE Master : [Not Detected] Fourth IDE Slave : [Not Detected]

Hard Disk Write Protect [Disabled] IDE Detect Time Out (Sec) [35] ATA(PI) 80Pin Cable Detection [Host & Device]

Options Controls the 40Pin PATA connector and CF interface.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

OnBoard PCI IDE Controller Disable

Primary

Controls the 40Pin PATA connector and CF interface.

Feature Options Description

OnChip SATA Channel

Enabled

Disabled

Enabled/Disabled the SATA circuit

OnChip SATA Channel

Native IDE

RAID AHCI Legacy IDE

Native IDE RAID (Press <Ctrl><F> to enter RAID BIOS menu) AHCI Legacy IDE

Feature Options Description

Hard Disk Write Protect

Disabled

Enabled

Disabled Enhanced

IDE Detect Time Out (Sec) 0

5 10 15 20 25 30

35

Select the time out value for detecting ATA/ATAPI device(s)

ATA(PI) 80Pin Cable Detection

Host & Device

Host

Device

Select the mechanism for detecting 80Pin ATA(PI) Cable

KT690 Family

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BIOS SETUP UTILITY

Advanced

Primary IDE Master

Device :Hard Disk Vendor :ST340014A Size :40.0GB LBA Mode :Supported Block Mode :16Sectors PIO Mode :4 Async DMA :MultiWord DMA-2 Ultra DMA :Ultra DMA-5 S.M.A.R.T. :Supported

Type [Auto] LBA/Large Mode [Auto] Block (Multi-Sector Transfer) [Auto] PIO Mode [Auto] DMA Mode [Auto] S.M.A.R.T. [Auto] 32Bit Data Transfer [Disabled]

Select the type of devices connected to the system

<- Select Screen || Select Item +- Change Option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Type Not Installed

Auto

CDROM ARMD

Select the type of device installed

LBA/Large Mode Disabled

Auto

Enabling LBA causes Logical Block Addressing to be used in place of Cylinders, Heads, and Sectors.

Block (Multi-Sector Transfer) Disabled

Auto

Select if the device should run in Block mode

PIO Mode

Auto

0 1 2 3 4

Selects the method for transferring the data between the hard disk and system memory. The Setup menu only lists those options supported by the drive and platform.

DMA Mode

Auto

SWDMA0 SWDMA1 SWDMA2 MWDMA0 MWDMA1 MWDMA2 UDMA0 UDMA1 UDMA2 UDMA3 UDMA4 UDMA5

Selects the Ultra DMA mode used for moving data to/from the drive. Autotype the drive to select the optimum transfer mode.

Note: To use UDMA Mode 2, 3, 4 and 5 with a device, the harddisk cable used MUST be UDMA66/100 cable (80-conductor cable).

S.M.A.R.T.

Auto

Disabled Enabled

Select if the Device should be monitoring itself (SelfMonitoring, Analysis and Reporting Technology System)

32Bit Data Transfer

Disabled

Enabled

Select if the Device should be using 32Bit data Transfer

(continues)

KT690 Family

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Feature Options Description

Hard Disk Write Protect

Disabled

Enabled

Enable write protection on HDDs, only works when it is accessed through the BIOS

IDE Detect Time Out (Sec) 0

5 10 15 20 25 30

35

Select the time out value when the BIOS is detecting ATA/ATAPI Devices

ATA(PI) 80Pin Cable Detection

Host & Device

Host Device

Select the mechanism for detecting 80Pin ATA (PI) Cable

KT690 Family

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8.3.3 Advanced settings – LAN Configuration

BIOS SETUP UTILITY

Advanced

LAN Configuration

ETH1 Configuration (Left) [Enabled] MAC Address : 00E0F4000001 ETH2 Configuration (Right) [Enabled] MAC Address : 00E0F4000002

Control of Ethernet Devices and PXE boot

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

ETH1 Configuration Disabled

Enabled

With RPL/PXE boot

Select if you want to enable the LAN adapter, or if you want to activate the RPL/PXE boot rom

ETH2 Configuration Disabled

Enabled

With RPL/PXE boot

Select if you want to enable the LAN adapter, or if you want to activate the RPL/PXE boot rom

8.3.4 Advanced settings – Floppy Configuration

BIOS SETUP UTILITY

Advanced

Floppy Configuration Floppy A [Disabled]

Select the type of floppy drive connected to the system.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Floppy A

Disabled

Enabled

Select the type of floppy drive connected to the system.

KT690 Family

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8.3.5 Advanced settings – Super IO Configuration

BIOS SETUP UTILITY

Advanced

Configure Win627DHG Super IO Chipset

OnBoard Floppy Controller [Enabled]

Serial Port1 Address [3F8/IRQ4] Serial Port2 Address [2F8/IRQ3] Serial Port2 Mode [Normal] Parallel Port Address [378] Parallel Port Mode [Normal] Parallel Port IRQ [IRQ7]

Allows BIOS to Enable or Disable Floppy Controller.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

OnBoard Floppy Controller Enabled

Disabled

Allows BIOS to Enable or Disable Floppy Controller.

Serial Port1 Address Disabled

3F8/IRQ4

3E8/IRQ4 3E8/IRQ6 3E8/IRQ10 2E8/IRQ11

Select the BASE I/O addresse and IRQ.

(The available options depends on the setup for the the other Serial Ports).

Serial Port2 Address Disabled

2F8/IRQ3

2E8/IRQ3 3E8/IRQ6 3E8/IRQ10 2E8/IRQ11

Select the BASE I/O addresse and IRQ.

(The available options depends on the setup for the the other Serial Ports).

Serial Port2 Mode

Normal

IRDA ASK IR

Select Mode for Serial Port2

Parallel Port Address

Disabled * 378

278 3BC

Select the I/O address for the PRINTER.

Parallel Port Mode

Normal

Bi-Directional EPP ECP & EEP

Select the mode that the parallel port will operate in

EPP Version

1.9

1.7

Setup with version of EPP you want to run on the parallel port

ECP Mode DMA Channel DMA0

DMA1

DMA3

Select a DMA channel

Parallel Port IRQ IRQ5

IRQ7

Select a IRQ

KT690 Family

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8.3.6 Advanced settings – Hardware Health Configuration

BIOS SETUP UTILITY

Advanced

Hardware Health Configuration

System Temperature :37ºC/98ºF

CPU Temperature :43ºC/109ºF External Temperature Sensor :N/A

System Fan Speed :Fail Fan Cruise Control [Disabled] Fan Type [4 Wire] CPUFan0 Speed :2537 RPM Fan Cruise Control [Thermal] Fan Setting [45°C/113°F] Fan Type [4 Wire] AUXFAN Speed :2164 Fan Cruise Control [Speed] Fan Setting [2177 RPM]

Watchdog Function [Disabled]

Disable = Full Speed

Thermal: Does regulate fan speed according to specified temperature

Speed: Does regulate according to specified RPM

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Fan Cruise Control

Disabled

Thermal Speed

Select how the Fan shall operate.

When set to Thermal, the Fan will start to run at the CPU die temperature set below.

When set to Speed, the Fan will run at the Fixed speed set below.

Fan Type

4 wire

3 wire

Select the electrical interface for the fan:

3 Wire = PWM output to fan power line. RPM reading and speed regulation at lower speed might be poor.

4 Wire = 12VDC always PWM on control signal

Fan Settings 1406-5625 RPM

30°-75°C

The fan can operate in Thermal mode or in a fixed fan speed mode

Watchdog

Disabled

15 seconds 30 seconds 1 minute 2 minutes 5 minutes 10 minutes

To be serviced via API.

KT690 Family

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8.3.7 Advanced settings – Voltage Monitor

BIOS SETUP UTILITY

Advanced

Voltage Monitor

Requested Core :1.100 V

Vcore :1.088 V

AVCC :3.248 V 3VCC :3.248 V +12Vin :12.029 V

-12Vin :Good +5Vin :5.165 V Core 1.8 V :1.792 V Core 1.2 V :1.184 V VSB :3.264 V VBAT :3.200 V

Enable Hardware Health Monitoring Device.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

8.3.8 Advanced settings – ACPI Configuration

BIOS SETUP UTILITY

Advanced

ACPI Settings

>Advanced ACPI Configuration >Chipset ACPI Configuration

General ACPI Configuration settings

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Advanced ACPI Configuration Feature Options Description

ACPI Version Features

ACPI v1.0

ACPI v2.0 ACPI v3.0

Enable RSDP pointers to 64-bit Fixed System Description Tables. Di ACPI version has some.

ACPI APIC support Disbled

Enabled

Include ACPI APIC table pointer to RSDT pointer list.

Suspend mode S1 (POS) *

S3 (STR)

Auto

Select the ACPI state used for System Suspend

Repost Video on S3 Resume

No

Yes

Determines whether to invoke VGA BIOS post on S3/STR resume

Chipset ACPI Configuration Feature Options Description

HPET in SB Disabled

Enabled

Enable/Disable

KT690 Family

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8.3.9 Advanced settings – Remote Access Configuration

BIOS SETUP UTILITY

Advanced

Configure Remote Access type and parameters

Remote Access [Enabled]

Serial port number [COM1] Base Address, IRQ [3F8h, 4] Serial Port Mode [115200 8,n,1] Flow Control [None] Redirection After BIOS POST [Always] Terminal Type [ANSI]

Select Remote Access type.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Remote Access

Disabled

Enabled

When Enabled then a remote PC can via one of the serial ports behave like a TTY terminal, so that keyboard and monitor (in a terminal window) is emulated by the remote PC. As remote PC terminal program the Windows Hyperterminal can be used.

Serial port number

COM1

COM2

Setup which comport that should be used for communication

Serial Port Mode

115200 8 n 1

57600 8 n 1 38400 8 n 1 19200 8 n 1 9600 8 n 1

Select the serial port speed

Flow Control

None

Hardware Software

Select Flow Control for serial port

Redirection After BIOS POST Disabled

Boot Loader

Always

How long shall the BIOS send the picture over the serial port

Terminal Type

ANSI

VT100 VT-UTF8

Select the target terminal type

VT.UTF8 Combo Key Support

Enabled

Disabled

Enable VT-UTF8 Combination Key Support for ANSI/VT100 terminals

Sredir Memory Display Delay

No Delay

Delay 1 Sec Delay 2 Sec

Delay 4 Sec

Gives the delay in seconds to display memory information

KT690 Family

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8.3.10 Advanced settings – Trusted Support

BIOS SETUP UTILITY

Advanced

Trusted Computing

TCG/TPM Support [No]

Enables/Disable TPM TCG (Tpm 1.1/1.2) Support in Bios

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

TCG/TPM Support

No

Yes

Enables/Disable TPM TCG (TPM 1.1/1.2) Support.

8.3.11 Advanced settings – USB Configuration

BIOS SETUP UTILITY

Advanced

USB Configuration

Module Version – 2.24.2-13.4

USB Devices Enabled : 1 Drive

Legacy USB Support [Enabled] USB 2.0 Controller Mode [HiSpeed] BIOS EHCI Hand-Off [Enabled]

USB Mass Storage Device Configuration

Enables support for legacy USB. AUTO option disables if no USB Devices are connected.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Legacy USB Support Disabled

Enabled

Auto

Support for legacy USB Keyboard

USB 2.0 Controller Mode FullSpeed

HiSpeed

Configure the USB 2.0 controller in HiSpeed (480Mbps) or FullSpeed (12Mbps).

Note: This feature is not available when Failsafe Defaults are loaded, because USB2.0 controller is disabled as default.

BIOS EHCI Hand-Off Enabled

Disabled

This is a workaround for OSes without EHCI handoff support. The EHCI Ownership change should claim by EHCI driver.

KT690 Family

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8.3.12 Advanced settings – USB Mass Storage Device Configuration

BIOS SETUP UTILITY

Advanced

USB Mass Storage Device Configuration

USB Mass Storage Reset Delay [20 Sec]

Device #1 JetFlash TS256MJF2L Emulation Type [Auto]

Number of seconds POST waits for the USB mass storage device after start unit command.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

8.3.13 Advanced settings – Clock Generator Settings

BIOS SETUP UTILITY

Advanced

Clock Generator Settings

Spread Spectrum [Disabled]

[Disabled] [0.5%]

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

USB Mass Storage Reset Delay

10 Sec

20 Sec 30 Sec

40 Sec

Number of seconds POST waits for the USB mass storage device after start unit command.

Emulation Type

Auto

Floppy Forced FDD Hard Disk CDROM

If Auto, USB devices less than 530MB will be emulated as Floppy and remaining as hard drive. Forced FDD option can be used to force a HDD formatted drive to boot as FDD (Ex. ZIP drive).

Feature Options Description

Spread Spectrum

Disabled

0.5%

Controls the clock generator clock output to enable (0.5%) or disable Spread spectrum

KT690 Family

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8.4 PCIPnP Menu

BIOS SETUP UTILITY

PCIPnP

Advanced PCI/PnP Settings

Warning: Setting wrong values in below sections

May cause system to malfunction.

Plug & Play O/S [No]

IRQ3 [Available] IRQ4 [Available] IRQ5 [Available] IRQ7 [Available] IRQ9 [Available] IRQ10 [Available] IRQ11 [Available] IRQ14 [Available] IRQ15 [Available]

NO: lets the BIOS configure all the devices in the system. YES: lets the operating system configure Plug and Play (PnP) devices not required for boot if your system has a Plug and Play operating system.

<- Select Screen || Select Item +- change option F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Plug & Play O/S

No *

Yes

NO: lets the BIOS configure all the devices in the system. YES: lets the operating system configure Plug and Play (PnP) devices not required for boot if your system has a Plug and Play operating system.

IRQ

Available

Reserved

Available: Specified IRQ is available to be used by PCI/PnP device. Reserved: Specified IRQ is reserved for use by Legacy ISA device.

KT690 Family

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8.5 Boot Menu

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

Boot Settings

>

Boot Settings Configuration

Boot Device Priority

Configure Settings during System Boot.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

KT690 Family

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8.5.1 Boot – Boot Settings Configuration

BIOS SETUP UTILITY

Boot

Boot Settings

Quick Boot [Enabled] Quiet Boot [Disabled] AddOn ROM Display Mode [Force BIOS] Bootup Num-Lock [On] PS/2 Mouse Support [Auto] Wait for ‘F1’ If Error [Enabled] Hit ‘DEL’ Message Display [Enabled] Interrupt 19 Capture [Disabled] PC Speaker/Beep [Enabled] Force boot Device [Disabled]

Configure Settings during System Boot.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Quick Boot

Enabled

Disabled

Allows BIOS to skip certain test while booting in order to decrease boot time.

Quiet Boot

Disabled

Enabled

Disabled: Displays normal POST messages. Enabled: Displays OEM Logo (no POST messages).

AddOn ROM Display Mode

Force BIOS

Keep current

Set display mode for Option ROM.

Bootup Num-Lock Off

On

Select Power-on state for numlock

PS/2 Mouse Support Disabled

Enabled

Auto

Select support for PS/2 Mouse.

Wait for ‘F1’ If Error (see note)

Disabled

Enabled

Wait for F1 key to be pressed if error occurs.

Hit ‘DEL’ Message Display Disabled

Enabled

Displays “Press DEL to run Setup” in POST.

Interrupt 19 Capture

Disabled

Enabled

Enabled: Allows option ROMs to trap interrupt 19

PC Speaker/Beep Disabled

Enabled

Control the default beeps during boot of the system. This setting will aldo control the beep during enumeration and (un)plug of USB.

Force boot Device

Disabled

Primary IDE Master Primary IDE Slave Secondary IDE Master Secondary IDE Slave Third IDE Master Third IDE Slave

Network

Does override current boot setting. Device must be in the boot priority menu though. If the device fails to boot, the system will NOT try other devices.

Note: List of errors: <INS> Pressed Primary Master Hard Disk Error PCI I/O conflict Timer Error S.M.A.R.T HDD Error PCI ROM conflict Interrupt Controller-1 error Cache Memory Error PCI IRQ conflict Keyboard/Interface Error DMA Controller Error PCI IRQ routing table error Halt on Invalid Time/Date Resource Conflict NVRAM Bad Static Resource Conflict

KT690 Family

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8.5.2 Boot – Boot Device Priority

BIOS SETUP UTILITY

Boot

Boot Device Priority

1st Boot Device [ESS-ST380811AS]

Specifies the boot sequence from the available devices.

A device enclosed in paranthesis has been disabled in the corresponding type menu.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Note: When pressing <F11> while booting it is possible manually to select boot device.

KT690 Family

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8.6 Security Menu

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

Security Settings

Supervisor Password :Installed User Password :Installed

Change Supervisor Password Change User Password

Boot Sector Virus Protection [Disabled]

Hard Disk Security

Primary Master HDD User Password Primary Slave HDD User Password Secondary Slave HDD User Password

Install or Change the password.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Change Supervisor Password Password Change the Supervisor Password Change User Password Password Change the User Password Boot Sector Virus Protection Enabled

Disabled

Will write protect the MBR when the BIOS is used to access the harddrive

HDD Password Password Locks the HDD with a password, the user needs to

type the password on power on

KT690 Family

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8.7 Chipset Menu

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

Advanced Chipset Settings

> > >

Warning: Setting wrong values in below sections may cause system to malfunction.

North Bridge Configuration South Bridge Configuration AMD 690G Configuration

Configures North Bridge features.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

8.7.1 Advanced Chipset Settings – North Bridge Chipset Configuration

BIOS SETUP UTILITY

Chipset

North Bridge Adapter Priority Configuration

> Power Down Control [Auto]

Memory CLK :400 MHz CAS Latency(Tcl) :5.0 RAS/CAS Delay(Trcd) :5 CLK Min Active RAS(Tras) :18 CLK Row Precharge Time(Trp):5 CLK RAS/RAS Delay(Trrd) :3 CLK Row Cycle (Trc) :24 CLK Asynchronous Latency :6 ns

Allow DIMMs to enter power down mode by deasserting the clock enable signal when DIMMs are not in use.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Power Down Control

Auto

Disabled

Allow DIMMs to enter power down mode by deasserting the clock enable signal when DIMMs are not in use.

KT690 Family

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8.7.2 Advanced Chipset Settings – SouthBridge Configuration

BIOS SETUP UTILITY

Chipset

South Bridge Chipset Configuration

>

SB HD Azalia Configuration

USB 1.1 OHCI Controllers [Enabled] USB 2.0 EHCI Controller [Enabled]

Disabled 2 USB Ports 4 USB Ports 6 USB Ports 8 USB Ports 10 USB Ports

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

SB HD Azalia Configuration Feature Options Description

HD Audio Azalia Device Disabled

Enabled

Enable/Disable complete HD (Azalia) Audio circuit

Audio Jack sensing

Disabled

Enabled

Enable/Disable sensing of audio jack plugs insertion

Azalia Front Panel Disabled

Enabled

Enable/Disable the “Front Panel Connector” Audio circuit

Feature Options Description

USB 1.1 OHCI Controllers Disabled

Enabled

Disabled Enabled

USB 2.0 Controller Disabled *

Enabled

Disabled Enabled

KT690 Family

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8.7.3 Advanced Chipset Settings - AMD 690G Configuration

BIOS SETUP UTILITY

Chipset

AMD 690G Configuration

> >

Internal Graphics Configuration Display Configuration

Internal Graphics

C

onfiguration

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

KT690 Family

KTD-00738-C Public User Manual Date: 2008-09-16 Page 85 of 91

Internal Graphics Configuration:

BIOS SETUP UTILITY

Chipset

Internal Graphics Configuration

Internal Graphics Mode [UMA] UMA Frame Buffer Size [Auto] Current UMA Size [128MB] Primary Video Controller [PCIE/IGFX/PCI]

Video Display Devices [Auto] TV Standard [NTSC] Expansion Mode [Disabled]

Disabled UMA

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Internal Graphics Mode Disabled

UMA

Disabled UMA

UMA Frame Buffer Size

Auto

32MB 64MB 128MB 256MB 512MB 1024MB

auto 32MB 64MB 128MB 256MB 512MB 1024MB

Primary Video Controller

PCIE/IGFX/PCI

PCI/PCIE/IGFX

IGFX/PCIE/PCI

PCIE/IGFX/PCI PCI/PCIE/IGFX IGFX/PCIE/PCI

Video Display Devices

Auto

CRT Only LCD Only DFP Only TV Only CRT Force(Auto) TV Force(Auto) CRT/TV Force

Auto CRT Only LCD Only DFP Only TV Only CRT Force(Auto) TV Force(Auto) CRT/TV Force

TV Standard

NTSC

PAL PAL-M PAL-60 NTSC-JAP PAL-CN Pal-N

Scart_RGB

NTSC PAL PAL-M PAL-60 NTSC-JAP PAL-CN Pal-N Scart_RGB

Expansion Mode Enabled

Disabled

Enabled/Disabled Expansion Mode

KT690 Family

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Displays Configuration:

BIOS SETUP UTILITY

Chipset

Displays Configuration

LVDS [None] Backlight Signal Inversion [Disabled] LCDVCC Voltage [3.3V] TMDS Support [Auto]

Display module V0.04

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

LVDS

None

Select Panel setup

Backlight Signal Inversion

Disabled

Enabled

Select signal Polarity

LCDVCC Voltage

3.3V

5.0V

LVDVCC voltage selection (power sequenced)

TMDS Support Disabled

Enabled

Auto

Disabled Enabled

Auto

KT690 Family

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8.8 Power

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Power Exit

Exit Options

Power Management/APM [Enabled] Power Button Mode [On/Off] Restore on AC Power Loss [Power On] RTC Resume [Disabled] PME/WOL Enable [Disabled] PS/2 Kbd/Mouse S4/S5 Wake [Disabled] Keyboard Wake Hotkey [Any key]

Enable/Disable SMI based power management and APM support

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Power Management/APM Disabled

Enabled

Enable/Disable SMI based power management and APM support

Power Button Mode Disabled

Standby

Suspend

Disabled Standby Suspend

Restore on AC Power Loss

Power On

Power Off Last state

Select whether or not to restart the system after AC power loss (ATX +5VSB signal goes high):

Power Off keeps the power off until the power

button is pressed.

Power On restores power to the computer. Last State use same power state as before power

loss occurred.

RTC Resume

Disabled

Enabled

RTC to generate a wake event

PME/WOL Enable

Disabled

Enabled

Disabled/Enabled PME to power on system with Wake on Lan function

PS/2 kbd/Mouse S4/S5 Wake

Disabled

Enabled

Enabled: System can be waked also from S4 or S5. Disabled: PS/2 KBD/MSE can still wake system from S3

Keyboard Wake Hotkey

Any key

“SPACE” “ENTER”

“Sleep button”

Any key “SPACE” “ENTER” “Sleep button”

KT690 Family

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8.9 Exit Menu

BIOS SETUP UTILITY

Main Advanced PCIPnP Boot Security Chipset Exit

Exit Options

Save Changes and Exit Discard Changes and Exit Discard Changes

Load Optimal Defaults Load Failsafe Defaults

Halt on invalid Time/Date [Enabled] Secure CMOS [Disabled]

Exit system setup after saving the changes.

F10 Key can be used for this operation.

<- Select Screen || Select Item Enter Go to Sub Screen F1 General Help F10 Save and Exit ESC Exit

Feature Options Description

Save Changes and Exit Ok

Cancel

Exit system setup after saving the changes

Discard Changes and Exit Ok

Cancel

Exit system setup without saving any changes

Discard Changes Ok

Cancel

Discards changes done so far to any of the setup questions

Load Optimal Defaults Ok

Cancel

Load Optimal Default values for all the setup questions

Load Failsafe Defaults Ok

Cancel

Load Failsafe Default values for all the setup questions

Halt on invalid Time/Date

Enabled

Disabled

Enabled: System halt if incorrect Date & Time.

Secure CMOS Enabled

Disabled

Enable will store current CMOS in non volatile ram. (For protection of CMOS data in case of battery failure etc.)

KT690 Family

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9. AMI BIOS Beep Codes

Boot Block Beep Codes:

Number of

Beeps

Description

1 Insert diskette in floppy drive A:

2 ‘AMIBOOT.ROM’ file not found in root directory of diskette in A:

3 Base Memory error

4 Flash Programming successful

5 Floppy read error

6 Keyboard controller BAT command failed

7 No Flash EPROM detected

8 Floppy controller failure

9 Boot Block BIOS checksum error

10 Flash Erase error

11 Flash Program error

12 ‘AMIBOOT.ROM’ file size error

13 BIOS ROM image mismatch (file layout does not match image present in flash device)

POST BIOS Beep Codes:

Number of

Beeps

Description

1 Memory refresh timer error.

2 Parity error in base memory (first 64KB block)

3 Base memory read/write test error

4 Motherboard timer not operational

5 Processor error

6 8042 Gate A20 test error (cannot switch to protected mode)

7 General exception error (processor exception interrupt error)

8 Display memory error (system video adapter)

9 AMIBIOS ROM checksum error

10 CMOS shutdown register read/write error

11 Cache memory test failed

Troubleshooting POST BIOS Beep Codes:

Number of

Beeps

Troubleshooting Action

1, 2 or 3 Reseat the memory, or replace with known good modules.

4-7, 9-11 Fatal error indicating a serious problem with the system. Consult your system manufacturer.

Before declaring the motherboard beyond all hope, eliminate the possibility of interference by a malfunctioning add-in card. Remove all expansion cards except the video adapter.

• If beep codes are generated when all other expansion cards are absent, consult your system manufacturer’s technical support.

• If beep codes are not generated when all other expansion cards are absent, one of the addin cards is causing the malfunction. Insert the cards back into the system one at a time until the problem happens again. This will reveal the malfunctioning card.

8 If the system video adapter is an add-in card, replace or reseat the video adapter. If the

video adapter is an integrated part of the system board, the board may be faulty.

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10. OS setup

Use the Setup.exe files for all relevant drivers. The drivers can be found on KT690 Driver CD or they can be downloaded from the homepage www.kontron.com

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11. Warranty

KONTRON Technology warrants its products to be free from defects in material and workmanship during the warranty period. If a product proves to be defective in material or workmanship during the warranty period, KONTRON Technology will, at its sole option, repair or replace the product with a similar product. Replacement Product or parts may include remanufactured or refurbished parts or components.

The warranty does not cover:

1. Damage, deterioration or malfunction resulting from: A. Accident, misuse, neglect, fire, water, lightning, or other acts of nature, unauthorized product

modification, or failure to follow instructions supplied with the product. B. Repair or attempted repair by anyone not authorized by KONTRON Technology. C. Causes external to the product, such as electric power fluctuations or failure. D. Normal wear and tear. E. Any other causes which does not relate to a product defect.

2. Removal, installation, and set-up service charges.

Exclusion of damages:

KONTRON TECHNOLOGY LIABILITY IS LIMITED TO THE COST OF REPAIR OR REPLACEMENT OF THE PRODUCT. KONTRON TECHNOLOGY SHALL NOT BE LIABLE FOR:

1. DAMAGE TO OTHER PROPERTY CAUSED BY ANY DEFECTS IN THE PRODUCT, DAMAGES BASED UPON INCONVENIENCE, LOSS OF USE OF THE PRODUCT, LOSS OF TIME, LOSS OF PROFITS, LOSS OF BUSINESS OPPORTUNITY, LOSS OF GOODWILL, INTERFERENCE WITH BUSINESS RELATIONSHIPS, OR OTHER COMMERCIAL LOSS, EVEN IF ADVISED OF THEIR POSSIBILITY OF SUCH DAMAGES.

2. ANY OTHER DAMAGES, WHETHER INCIDENTAL, CONSEQUENTIAL OR OTHERWISE.

3. ANY CLAIM AGAINST THE CUSTOMER BY ANY OTHER PARTY.