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KTQ67/Flex-Medical
User Manual
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Kontron KTQ67/Flex-Medical User Manual

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If it’s embedded, it’s Kontron
KTQ67/Flex-Medical Users Guide
KTD-N0849-C
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KTD-N0849-C Page 2
Document revision history.
Revision
Date
By
Comment
C
Jan. 8th 2014
MLA
Added BIOS features: Force Boot Setup and PC Speaker/Beep.
B
Dec. 13th 2013
MLA
Revision merged KTD-N00829-E KTQ67 Users Guide.
A
Aug. 22nd 2013
MLA
First release
0
Aug. 26th 2011
MLA
Preliminary version
Copyright Notice:
Copyright  2011, KONTRON Technology A/S, ALL RIGHTS RESERVED.
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.
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: 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 labelling, can be reasonably expected to result in significant injury to the user. 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.
Document details
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KTD-N0849-C Page 3
KONTRON Technology Technical Support & 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 (find PN on label)
3. Serial Number if available (find SN on label)
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.
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.
Document details
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KTD-N0849-C Page 4
Contents
Introduction ............................................................................................. 7
1 Installation procedure ........................................................................ 8
1.1 Installing the board .......................................................................................................................... 8
1.2 Requirement according to IEC60950 ................................................................................................... 9
2 System Specification ........................................................................ 10
2.1 Component main data ..................................................................................................................... 10
2.2 System overview ............................................................................................................................. 14
2.3 Processor Support Table .................................................................................................................. 16
2.4 System Memory support ................................................................................................................... 19
2.5 KTQ67 Graphics Subsystem ............................................................................................................... 20
2.5.1 Intel® HD Graphics 3000 (example) ................................................................................................ 20
2.6 Power Consumption ........................................................................................................................ 21
3 Connector Locations ......................................................................... 24
3.1 KTQ67/Flex-Medical – frontside ........................................................................................................ 24
4 Connector Definitions ....................................................................... 26
5 IO-Area Connectors ........................................................................... 27
5.1 Display connectors (IO Area) ............................................................................................................ 27
5.1.1 DVI (lower) connector – DVI-I ......................................................................................................... 27
5.1.2 DVI-D (upper) connector – DVI-D ..................................................................................................... 28
5.2 Ethernet Connectors (IO Area).......................................................................................................... 29
5.3 USB Connectors (IO Area) ................................................................................................................ 30
5.3.1 USB Connector 0/1/2/3 (USB0/1/2/3) ............................................................................................ 30
5.4 COM1 and COM2 Connectors (IO Area) ............................................................................................... 31
6 Internal Connectors .......................................................................... 32
6.1 Power Connector (ATX/BTXPWR) ....................................................................................................... 32
6.2 Fan Connectors (FAN_CPU) (J28) and (FAN_SYS) (J29) ....................................................................... 33
6.3 PS/2 Keyboard and Mouse connector (KBDMSE) (J15)......................................................................... 34
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6.4
Display connectors (Internal) ........................................................................................................... 35
6.4.1 LVDS Flat Panel Connector (LVDS) (J39) (optionally) ......................................................................... 35
6.5 SATA (Serial ATA) Disk interface (J22 – J27) ...................................................................................... 36
6.6 USB Connectors (USB) ..................................................................................................................... 37
6.6.1 USB Connector 6/7 ........................................................................................................................ 37
6.6.2 USB Connector 8/9 (USB8/9) (J18) ................................................................................................. 37
6.6.3 USB Connector 10/11 (USB10/11) (J17) .......................................................................................... 38
6.6.4 USB Connector 12/13 (USB12/13) (J16) .......................................................................................... 38
6.7 Serial COM3 – COM4 Ports (J20, J21) ................................................................................................. 39
6.8 Audio Connector ............................................................................................................................. 40
6.8.1 Line2 and Mic2 .............................................................................................................................. 40
6.8.1 Audio Header Connector (AUDIO_HEAD) (J47) ................................................................................. 40
6.9 Power Button Connector (PWRBTN) (J48) .......................................................................................... 41
6.10 Front Panel Connector (FRONTPNL) (J36) .......................................................................................... 42
6.11 Feature Connector (FEATURE) (J30) .................................................................................................. 43
6.12 ”Load Default BIOS Settings” Jumper (J11) ....................................................................................... 45
6.13 ClrRTC (J12) ................................................................................................................................... 45
6.14 SPI Recover Jumper (J41) ................................................................................................................ 46
6.15 SPI Connector (SPI) (J40) ................................................................................................................ 47
6.16 XDP-CPU (Debug Port for CPU) (J14) ................................................................................................. 48
6.17 XDP-PCH (Debug Port for Chipset) (J13) ............................................................................................ 49
7 Slot Connectors (PCIe, PCI)............................................................... 50
7.1 PCIe Connectors.............................................................................................................................. 50
7.1.1 PCI-Express x16 Connector (PCIe x16).............................................................................................. 50
7.1.3 PCI-Express x4 Connector (PCIe x4) (J33) ........................................................................................ 52
7.2 PCI Slot Connectors ........................................................................................................................ 53
7.2.1 Signal Description – PCI Slot Connector ........................................................................................... 54
7.2.2 KTQ67 PCI IRQ & INT routing ........................................................................................................... 55
8 On-board - & mating connector types ................................................. 56
9 System Resources ............................................................................. 57
9.1 Memory Map ................................................................................................................................... 57
9.2 PCI Devices .................................................................................................................................... 58
9.3 Interrupt Usage .............................................................................................................................. 59
9.4 IO Map ........................................................................................................................................... 60
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10 BIOS ................................................................................................ 61
10.1 Main .............................................................................................................................................. 61
10.2 Advanced ....................................................................................................................................... 62
10.2.1 Advanced - PCI Subsystem Settings ................................................................................................ 63
10.2.2 Advanced - APCI Settings ............................................................................................................. 68
10.2.3 Advanced - Trusted Computing ...................................................................................................... 69
10.2.4 Advanced - CPU Configuration ....................................................................................................... 70
10.2.5 Advanced - SATA Configuration ...................................................................................................... 72
10.2.6 Advanced - Intel ® Rapid Start Technology ..................................................................................... 76
10.2.7 Advanced - Intel TXT (LT) Configuration .......................................................................................... 77
10.2.8 Advanced - Intel ® Anti-Theft Technology Configuration .................................................................. 78
10.2.9 Advanced - AMT Configuration ....................................................................................................... 79
10.2.10 Advanced - Acoustic Management Configuration ............................................................................. 81
10.2.11 Advanced - USB Configuration ....................................................................................................... 82
10.2.12 Advanced - SMART Settings ........................................................................................................... 83
10.2.13 Advanced - Super IO Configuration................................................................................................. 84
10.2.14 Advanced - Voltage Monitor .......................................................................................................... 89
10.2.15 Advanced - Hardware Health Configuration ..................................................................................... 90
10.2.16 Advanced - LAN Configuration ....................................................................................................... 92
10.2.17 Advanced - Delay Startup .............................................................................................................. 94
10.2.18 Advanced - Serial Port Console Redirection ..................................................................................... 95
10.2.19 Advanced - CPU PPM Configuration................................................................................................. 99
10.3 Chipset ........................................................................................................................................ 100
10.3.1 PCH-IO Configuration ................................................................................................................... 101
10.3.2 System Agent (SA) Configuration .................................................................................................. 106
10.4 Boot ............................................................................................................................................ 120
10.4.1 CSM16 parameters ....................................................................................................................... 122
10.4.2 Force Boot Setup ......................................................................................................................... 123
10.4.3 CSM parameters ........................................................................................................................... 124
10.5 Security ....................................................................................................................................... 125
10.5.1 HDD Security Configuration .......................................................................................................... 126
10.6 Save & Exit ................................................................................................................................... 127
11 AMI BIOS Beep Codes ...................................................................... 128
12 OS Setup ........................................................................................ 129
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Introduction
This manual describes the KTQ67/Flex-Medical made by KONTRON Technology A/S. In this manual the board will also be denoted KTQ67. The KTQ67/Flex-Medial is based on the Q67 chipset, support 2nd and 3rd generation Intel® i7 -, i5 -, i3 2Core and 4Core processor and the Celeron B810 2Core, see “Processor Support Table for more specific details.
Use of this Users Guide implies a basic knowledge of PC-AT hard- and software. This manual is focused on describing the KTQ67 board 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 the following chapter before switching-on the power.
All configuration and setup of the CPU board is either done automatically or manually by the user via the BIOS setup menus. Only exception is the “Load Default BIOS Settings” Jumper.
Introduction
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Warning: Turn off PSU (Power Supply Unit) completely (no mains power connected to the
PSU) or leave the Power Connectors unconnected while configuring the board. Otherwise components (DRAM, LAN cards etc.) might get damaged. Make sure PSU has 3.3V monitoring watchdog (standard ATX PSU feature), running the board without 3.3V will damage the board within minutes.
!
!
Warning: When mounting the board to chassis etc. please notice that the board contains
components on both sides of the PCB which can easily be damaged if board is handled
without reasonable care. A damaged component can result in malfunction or no function at all.
1 Installation procedure
1.1 Installing the board
To get the board running, follow these steps. If the board shipped from KONTRON has already components like DRAM, CPU and cooler mounted, then relevant steps below, can be skipped.
1. Turn off the PSU (Power Supply Unit)
2. Insert the DRAM(s) (UDIMM 240pin)
Be careful to push it in the slot(s) before locking the tabs. For a list of approved DRAM contact your Distributor or FAE. See also chapter “System Memory Support”.
3. Install the processor
The CPU is keyed and will only mount in the CPU socket in one way. Use finger to open/ close the CPU socket. Refer to supported processor overview for details.
4. Cooler Installation
Use heat paste or adhesive pads between CPU and cooler and connect the Fan electrically to the FAN_CPU connector.
5. Connecting Interfaces
Insert all external cables for hard disk, keyboard etc. A monitor must be connected in order to be able change BIOS settings.
6. Connect and turn on PSU
Connect PSU to the board by the ATX/BTXPWR and the 4-pin ATX+12V connectors.
7. 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.
8. BIOS Setup
Enter the BIOS setup by pressing the <Del> key during boot up. Enter Exit Menu and Load Optimal Defaults. Refer to the “BIOS Configuration / Setup“ section of this manual for details on BIOS setup.
9. Mounting the board to chassis
When fixing the Motherboard on a chassis it is recommended using screws with integrated washer and having diameter of ~7mm.
Note: Do not use washers with teeth, as they can damage the PCB and may cause short circuits.
Installation procedure
Note: To clear all BIOS settings, including Password protection, activate “Load Default BIOS Settings”
Jumper for ~10 sec (without power connected).
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1.2 Requirement according to IEC60950
Users of KTQ67 should take care when designing chassis interface connectors in order to fulfil the IEC60950 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
tyyppiin. 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 the peripheral devices, the customer has to take care about:
That the wires have suitable rating to withstand the maximum available power.
That the enclosure of the peripheral device fulfils the fire protecting requirements of IEC60950.
Installation procedure
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2 System Specification
2.1 Component main data
The table below summarizes the features of the KTQ67/Flex –Medical embedded motherboard.
Form factor
KTQ67/Flex-Medical: Flex-ATX (190,5 mm by 228,6 mm)
Processor
Support the following Intel® Core™ processors via Socket H2 (LGA1155), ZIF Socket
Intel® Core™ i7, 2nd and 3rd Generation
Intel® Core™ i5, 2nd and 3rd Generation
Intel® Core™ i3, 2nd and 3rd Generation
Intel® Pentium® Desktop
1066/1333MHz system bus and 3/6/8MB internal cache.
(Intel® Pentium® Desktop G622 only 1066MHz)
Up to 95W (Thermal Guideline)
Memory
4x DDR3 UDIMM 240pin socket
Support single and dual ranks DDR3 1066/1333MT/s
(PC3-8500/PC3-10600)
Support system memory from 256MB and up to 4x 8GB Note: Less than 4GB displayed in System Properties using 32bit OS (Shared Video Memory/PCI resources is subtracted)
ECC not supported (chipset limitation)
Chipset
Intel Q67 PCH (Platform Controller Hub)
Intel ® VT-d (Virtualisation Technology for Directed I/O)
Intel ® TXT (Trusted Execution Technology)
Intel ® vPRO
Intel ® AMT (Active Management Technology) version 8
Intel ® AT (Anti-Theft Technology)
Intel ® HD Audio Technology
Intel ® RST (Rapid Storage Technology)
Intel ® RRT (Rapid Recover Technology)
SATA (Serial ATA) 6Gb/s and 3Gb/s.
USB revision 2.0
PCI Express revision 2.0
ACPI 3.0b compliant
Dual Display support (Dual Graphic Pipes)
Blue-ray HD video playback
Security
Intel® Integrated TPM 1.2 support
Management
Intel® Active Management Technology (Intel® AMT) 8.0
Audio
Audio, 7.1 Channel High Definition Audio Codec using the VIA 1708B codec
Line-out
Line-in
Surround output: SIDE, LFE, CEN, BACK and FRONT
Microphone: MIC1 and MIC2
CDROM in
SPDIF (electrical Interface only)
On-board speaker (Electromagnetic Sound Generator like Hycom HY-05LF)
System Specification
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Video
Intel ® HD Graphics 4000 or
Intel ® HD Graphics 3000 or Intel ® HD Graphics 2500 or Intel ® HD Graphics 2000 or Intel ® HD Graphics, depending on actual CPU.
Analogue VGA and digital display ports via the Mobile Intel ® Q67 Chipset.
DVI-I & DVI-D ports via Mobile Intel ® Q67 Chipset. (Digital single channel only).
LVDS panel support (optional) up to 24 bit, 2 pixels/clock and 1920x1200.
Dual independent pipes for Mirror and Dual independent display support
I/O Control
Via ITE IT8516E Embedded Controller and Winbond W83627DHG I/O Controller
(both via LPC Bus interface)
Peripheral
interfaces
Six USB 2.0 ports on I/O area
Eight USB 2.0 ports on internal pinrows
Four Serial ports (RS232) on internal pinrows
Two Serial ATA-600 IDE interfaces (blue)
Four Serial ATA-300 IDE interfaces (black)
RAID 0/1/5/10 support
mSATA via mSATA connector
PS/2 keyboard and mouse ports via pinrow
LAN
Support
1x 10/100/1000Mbits/s LAN (ETHER1) using Intel® Lewisville 82579LM Gigabit
PHY connected to Q67 supporting AMT 8.0. Galvanic Isolated.
1x 10/100/1000Mbits/s LAN (ETHER2) using Intel® Hartwell 82574L PCI Express controller. Galvanic Isolated.
PXE Netboot supported.
Wake On LAN (WOL) supported
Expansion
Capabilities
PCI Bus routed to 2x PCI slots (PCI Local Bus Specification Revision 3.0, 33MHz)
PCI-Express slot(s) (PCIe 2.0):
1 slot PCIe x16
1 slot PCIe x4 (in a x16 slot)
SMBus, compatible with ACCES BUS and I2C BUS, (via Feature connector)
SPI bus routed to SPI connector
DDC Bus routed to DP connector when DP Adapters are connected
5 x digital input, (via Feature connector)
13 x GPIOs (General Purpose I/Os), (via Feature connector)
DAC, ADC, PWM and TIMER (Multiplexed), (via Feature connector)
WAKE UP / Interrupt Inputs (Multiplexed), (via Feature connector)
3 Wire Bus for GPIO Expansion (up to 152 GPIOs), (via Feature connector)
8 bit Timer output, (via Feature connector)
System Specification
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Hardware
Monitor Subsystem
Smart Fan control system, support Thermal® and Speed® cruise for FAN_CPU
CPU die temperature input (Precision +/- 3ºC)
Voltage monitoring
Intrusion (Case Open) detect input, (via Feature connector)
Sleep S4/S5# Indication, (via Feature connector)
System Powergood Signal, (via Feature connector)
Power Supply Unit
ATX/BTX (w. ATX+12V) PSU for full PCI/PCIe load.
Battery
Exchangeable 3.0V Lithium battery for on-board Real Time Clock and CMOS RAM. Manufacturer Panasonic / Part-number CR-2032L/BN, CR2032N/BN or CR-2032L/BE. Approximate 5 years retention. Current draw is 5,7µA when PSU is disconnected and 0 µA in S0 – S5.
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.
BIOS
Kontron Technology / AMI BIOS (EFI core version)
Support for ACPI 3.0 ( Advanced Configuration and Power Interface), Plug & Play
o Suspend (S1 mode) o Suspend To Ram (S3 mode) o Suspend To Disk (S4 mode)
“Always On” BIOS power setting
RAID Support (RAID modes 0,1, 5 and 10)
Operating
Systems Support
WinXP (32b *)
Windows 7 (32b + 64b *)
WES7 (32b * + 64b *)
Linux Fedora *
Linux Ubuntu *
VxWorks (not ready yet)
*= Out Of The Box installation test only
System Specification
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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)
Operating altitude: up to 2000 meters
Storage:
-20°C – 70°C; lower limit of storage temperature is defined by specification restriction of on-board CR2032 battery. Board with battery has been verified for storage temperature down to -40°C by Kontron.
5% - 95% relative humidity (non-condensing)
Electro Static Discharge (ESD) / Radiated Emissions (EMI): (Pending) 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:
IEC 60950-1: 2005, 2nd Edition UL 60950-1 CSA C22.2 No. 60950-1 Product Category: Information Technology Equipment Including Electrical Business Equipment Product Category CCN: NWGQ2, NWGQ8 File number: E194252
Theoretical MTBF:
211.994 / 100.475 hours @ 40ºC / 60ºC for the KTQ67/Flex
Restriction of Hazardous Substances (RoHS):
The KTQ67 is RoHS compliant.
Capacitor utilization:
No Tantalum capacitors on board Only Japanese brand Solid capacitors rated for 100 ºC used on board
System Specification
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2.2 System overview
The block diagram below shows the architecture and main components of the KTQ67. The key component on the board is the Intel
®
Q67 (Cougar Point) Mobile Express Chipset.
More detailed block diagram on next page.
System Specification
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Dual Channel DDR3
1067/1333/1600
4 x DIMM
Q67 PCH
PCIe x16 Graphics
Ivy Bridge or
Sandy Bridge
LGA1155
2x DisplayPort
VGA
PCIe x4 Slot
Intel 82574L 10/100/GBe
14x USB
(Gen2.0)
6x SATA
SDVO to LVDS (option)
VIA Codec
SPI
SPI
TPM
Intel Lewisville PHY
System Specification
IO controller
W83627DHG-P(T)
IO controller
ITE8516
PCI slot
PCI slot
COM3/4
COM1/2
FEATURE
FAN CPU/SYS
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2.3 Processor Support Table
The KTQ67 is designed to support the following LGA1155 processors (up to 95W power consumption):
2
nd
and 3rd generation Intel® Core™ i7 processor
2
nd
and 3rd generation Intel® Core™ i5 processor
2
nd
and 3rd generation Intel® Core™ i3 processor
Pentium and Celeron
In the following list you will find all CPU’s supported by the chipset in according to Intel. Please notice that Bus speed 1600 MHz has not been verified yet.
Embedded CPU’s are indicated by green text, successfully tested CPU’s are indicated by highlighted text, successfully tested embedded CPU’s are indicated by green and highlighted text and failed CPU’s are indicated by red text.
Some processors in the list are distributed from Kontron, those CPU’s are marked by an * (asterisk). However please notice that this marking is only guide line and maybe not fully updated.
Processor
Brand
Clock [GHz]
Turbo [GHz]
Cores /
Threads
Bus
[MHz]
Cache
[MB]
CPU
Number
sSpec
no.
Step
TG
[W/ºC]
Note
3.5
3.9
4 / 8
1333/1600
8
3770K
SR0PL
E1
77/67.4
HDG4000
I7 3rd Gen.
3.4
3.9
4 / 8
1333/1600
8
3770
SR0PK
E1
77/67.4
HDG4000
(Ivy Bridge)
3.1
3.9
4 / 8
1333/1600
8
3770S
SR0PN
E1
65/69.1
HDG4000
2.5
3.7
4 / 8
1333/1600
8
3770T
SR0PQ
E1
45/69.8
HDG4000
3.5
3.9
4 / 8
1066/1333
8
2700K
SR0DG
D2
95/72.6
HDG3000
I7 2nd Gen.
3.4
3.8
4 / 8
1066/1333
8
2600
SR00B
D2
95/72.6
HDG2000
(Sandy Bridge)
3.4
3.8
4 / 8
1066/1333
8
2600K
SR00C
D2
95/72.6
HDG3000
2.8
3.8
4 / 8
1066/1333
8
2600S
SR00E
D2
65/69.1
HDG2000
3.4
3.8
4 / 4
1333/1600
6
3570
SR0T7
N0
77/67.4
HDG2500
I5 3rd Gen.
3.4
3.8
4 / 4
1333/1600
6
3570K
SR0PM
E1
77/67.4
HDG4000
(Ivy Bridge)
3.3
3.7
4 / 4
1333/1600
6
3550
SR0P0
E1
77/67.4
HDG2500
3.2
3.6
4 / 4
1333/1600
6
3470
SR0T8
N0
77/67.4
HDG2500
3.1
3.8
4 / 4
1333/1600
6
3570S
SR0T9
N0
65/69.1
HDG2500
3.1
3.5
4 / 4
1333/1600
6
3450
SR0PF
E1
77/67.4
HDG2500
3.1
3.3
4 / 4
1333/1600
6
3350P
SR0WS
E1
69/67.4 -
3.0
3.7
4 / 4
1333/1600
6
3550S
SR0P3
E1
65/69.1
HDG2500
3.0
3.2
4 / 4
1333/1600
6
3330
SR0RQ
E1
77/67.4
HDG2500
2.9
3.6
4 / 4
1333/1600
6
3475S
SR0PP
E1
65/69.1
HDG4000
2.9
3.6
4 / 4
1333/1600
6
3470S
SR0TA
N0
65/69.1
HDG2500
2.9
3.6
2 / 4
1333/1600
3
3470T
SR0RJ
L1
35/65.0
HDG2500 *
2.8
3.5
4 / 4
1333/1600
6
3450S
SR0P2
E1
65/69.1
HDG2500
2.7
3.5
4 / 4
1333/1600
6
3330S
SR0RR
E1
65/
HDG2500
2.3
3.2
4 / 4
1333/1600
6
3570T
SR0P1
E1
45/69.8
HDG2500
3.3
3.7
4 / 4
1066/1333
6
2550K
SR0QH
D2
95/72.6
-
I5 2nd Gen.
3.3
3.7
4 / 4
1066/1333
6
2500K
SR008
D2
95/72.6
HDG3000
(Sandy Bridge)
3.3
3.7
4 / 4
1066/1333
6
2500
SR00T
D2
95/72.6
HDG2000
3.2
3.5
4 / 4
1066/1333
6
2450P
SR0G1
D2
95/72.6
-
3.1
3.4
4 / 4
1066/1333
6
2380P
SR0G2
D2
95/72.6 -
3.1
3.4
4 / 4
1066/1333
6
2400
SR00Q
D2
95/72.6
HDG2000
3.0
3.3
4 / 4
1066/1333
6
2320
SR02L
D2
95/72.6
HDG2000
2.9
3.2
4 / 4
1066/1333
6
2310
SR02K
D2
95/72.6
HDG2000
2.8
3.1
4 / 4
1066/1333
6
2300
SR00D
D2
95/72.6
HDG2000
2.7
3.7
4 / 4
1066/1333
6
2500S
SR009
D2
65/69.1
HDG2000
2.7
3.5
2 / 4
1066/1333
3
2390T
SR065
Q0
35/65.0
HDG2000
2.5
3.3
4 / 4
1066/1333
6
2405S
SR0BB
D2
65/69.1
HDG3000
2.5
3.3
4 / 4
1066/1333
6
2400S
SR00S
D2
65/69.1
HDG2000
2.3
3.3
4 / 4
1066/1333
6
2500T
SR00A
D2
45/69.8
HDG2000
System Specification
Page 17
KTD-N0849-C Page 17
Processor
Brand
Clock [GHz]
Turbo [GHz]
Cores /
Threads
Bus
[MHz]
Cache
[MB]
CPU
Number
sSpec
no.
Step
TG
[W/ºC]
Note
3.5 - 2 / 4
1333/1600
3
3250
SR0YX
P0
55/65.3
HDG2500
I3 3rd Gen.
3.4 - 2 / 4
1333/1600
3
3245
SR0YL
L1
55/65.3
HDG4000
(Ivy Bridge)
3.4 - 2 / 4
1333/1600
3
3240
SR0RH
L1
55/65.3
HDG2500
3.3 - 2 / 4
1333/1600
3
3225
SR0RF
L1
55/65.3
HDG4000
(No vPRO)
3.3 - 2 / 4
1333/1600
3
3220
SR0RG
L1
55/65.3
HDG2500
3.2 - 2 / 4
1333/1600
3
3210
SR0YY
P0
55/65.3
HDG2500
3.0 - 2 / 4
1333/1600
3
3250T
SR0YW
P0
35/65.0
HDG2500
2.9 - 2 / 4
1333/1600
3
3240T
SR0RK
L1
35/65.0
HDG2500
2.8 - 2 / 4
1333/1600
3
3220T
SR0RE
L1
35/65.3
HDG2500
3.4 - 2 / 4
1066/1333
3
2130
SR05W
Q0
65/69.1
HDG2000
I3 2nd Gen.
3.3 - 2 / 4
1066/1333
3
2125
SR0AY
J1
65/69.1
HDG3000
(Sandy Bridge)
3.3 - 2 / 4
1066/1333
3
2120
SR05Y
Q0
65/69.1
HDG2000
3.1 - 2 / 4
1066/1333
3
2105
SR0BA
J1
65/69.1
HDG3000
(No vPRO)
3.1 - 2 / 4
1066/1333
3
2100
SR05C
Q0
65/69.1
HDG2000
3.1 - 2 / 4
1066/1333
3
2102
SR05D
Q0
65/69.1
HDG2000
2.6 - 2 / 4
1066/1333
3
2120T
SR060
Q0
35/65.0
HDG2000
2.5 - 2 / 4
1066/1333
3
2100T
SR05Z
Q0
35/65.0
HDG2000
3.1 - 2 / 2
1066/1333
3
G870
SR057
Q0
65/69.1
HDG
3.0 - 2 / 2
1066/1333
3
G860
SR058
Q0
65/69.1
HDG
Pentium
2.9 - 2 / 2
1066/1333
3
G850
SR05Q
Q0
65/69.1
HDG
2.9 - 2 / 2
1066
3
G645
SR0RS
Q0
65/69.1
HDG
2.8 - 2 / 2
1066/1333
3
G840
SR05P
Q0
65/69.1
HDG
2.8 - 2 / 2
1066
3
G640
SR059
Q0
65/69.1
HDG
2.7 - 2 / 2
1066
3
G632
SR05N
Q0
65/69.1
HDG
2.7 - 2 / 2
1066
3
G630
SR05S
Q0
65/69.1
HDG
2.8 - 2 / 2
1066/1333
3
G860T
SR0MF
Q0
35/65.0
HDG
2.6 - 2 / 2
1066
3
G620
SR05R
Q0
65/69.1
HDG
2.6 - 2 / 2
1066
3
G622 - -
65/69.1
HDG
2.5 - 2 / 2
1066
3
G645T
SR0S0
Q0
35/65.0
HDG
2.4 - 2 / 2
1066
3
G640T
SR066
Q0
35/65.0
HDG
2.2 - 2 / 2
1066
3
G620T
SR05T
Q0
35/65.0
HDG
2.3 - 2 / 2
1066
3
G630T
SR05U
Q0
35/65.0
HDG
2.7 - 2 / 2
1333
2
G1620
SR10L
P0
55
HDG *
2.7 - 2 / 2
1066
2
G555
SR0RZ
Q0
65/69.1
HDG
2.6 - 2 / 2
1333
2
G1610
SR10K
P0
55
HDG *
2.6 - 2 / 2
1066
2
G550
SR061
Q0
65/69.1
HDG
2.5 - 2 / 2
1066
2
G540
SR05J
Q0
65/69.1
HDG
Celeron
2.4 - 2 / 2
1066
2
G530
SR05H
Q0
65/69.1
HDG
2.3 - 2 / 2
1333
2
G1610T
SR10M
P0
35/
HDG *
2.2 - 2 / 2
1066
2
G550T
SR05V
Q0
35/65.0
HDG
2.1 - 2 / 2
1066
2
G540T
SR05L
Q0
35/65.0
HDG
2.0 - 2 / 2
1066
2
G530T
SR05K
Q0
35/65.0
HDG
2.0 - 1 / 2
1066/1333
1.5
G470
SR0S7
Q0
35/65.5
HDG
1.8 - 1 / 2
1066
1.5
G460
SR0GR
Q0
35/65.5
HDG
1.6 - 1 / 1
1066
1
G440
SR0BY
Q0
35/65.5
HDG
(*) ECC not supported on KTQ67.
Not all CPUs, even of same type, support all functions ex. i7 3770K, i7 2600K, i5 3570K, 3450, 3450S, 3350P, 3330S, 3330 and i5 2500K, 2300,2310, 2320, 2380P, 2450P, 2550K doesn’t support vPro while all other i7 and i5 does.
Most of the processors are supporting the Enhanced Intel® SpeedStep® which is improved SpeedStep technology for faster transition between voltage (power saving states) and frequency states with the result of improved power/performance balance. For more details see http://ark.intel.com
Intel® Turbo Boost Technology 2.0 is supported by i5 and i7, as indicated in above list of processors, and is enabling overclocking of all cores, when operated within the limits of thermal design power, temperature and current.
System Specification
Page 18
KTD-N0849-C Page 18
!
Warning: Make sure sufficient airflow is always present around the components located below
the cooler. Different coolers are available on the market and some is not generating any airflow
or is blocking the airflow around these components, causing reduced lifetime.
Sufficient cooling must be applied to the CPU in order to remove the effect as listed in above table (Thermal Guideline). The sufficient cooling is also depending on the maximum (worst-case) ambient operating temperature and the actual load of processor.
It is recommended to use a cooler like the Kontron
PN 1046-6305 “KTQ67 Cooler”.
The design of this cooler makes sure airflow is
always present around the components below the
cooler. Even if Fan is set to be off, it is still running
a minimum RPM (Rotation Per Minute).
Air sucked in to the cooler
Air blown out of the cooler
Components below the cooler
Note: The temperature of the air blown out of the cooler should be 70ºC maximum.
System Specification
Page 19
KTD-N0849-C Page 19
2.4 System Memory support
The KTQ67/Flex-Medical has four DDR3 UDIMM sockets. The sockets support the following memory features:
4x DDR3 1.5V UDIMM 240-pin
Dual-channel with 2 UDIMM per channel
Single/dual rank unbuffered 1066/1333MT/s (PC3-8500/PC3-10600)
From 256MB and up to 4x 8GB. Note: Less than 4GB displayed in System Properties using 32bit OS (Shared Video Memory/PCI resources is subtracted)
SPD timings supported
ECC not supported
The installed DDR3 DIMM should support the Serial Presence Detect (SPD) data structure. This allows the BIOS to read and configure the memory controller for optimal performance. If non-SPD memory is used, the BIOS will attempt to configure the memory settings, but performance and reliability may be impacted.
Memory Operating Frequencies
Regardless of the DIMM type used, the memory frequency will either be equal to or less than the processor system bus frequency. For example, if DDR3 1600 memory is used with a 1333 MHz system bus frequency processor, the memory clock will operate at 666 MHz. The table below lists the resulting operating memory frequencies based on the combination of DIMMs and processors.
DIMM Type
Module
name
Memory
Data
transfers
[Mill/s]
Processor
system bus
frequency
[MHz]
Resulting
memory clock
frequency
[MHz]
Peak transfer
rate
[MB/s]
DDR3 1066
PC3-8500
1066
1066 / 1333
533
8533
DDR3 1333
PC3-10600
1333
1333
666
10666
DDR3 1600
PC3-12800
1600
1333
666
10666
Notes: Kontron offers the following memory modules:
1054-2766 1GB DDR3 1066 1031-9872 1GB DDR3 1333 1054-3706 1GB DDR3 1600 1054-2768 2GB DDR3 1066 1054-3702 2GB DDR3 1333 1054-3707 2GB DDR3 1600 1054-3700 4GB DDR3 1066 1054-3703 4GB DDR3 1333 1054-3708 4GB DDR3 1600 1054-3704 8GB DDR3 1333 1052-5601 8GB DDR3 1600
DDR3 (SLOT B1)
DDR3 (SLOT B0) DDR3 (SLOT A1) DDR3 (SLOT A0)
(Example Flex version)
System Specification
It has not been verified that the combination of CPU
supporting Bus Speed 1600 MHz and DDR3 1600 actually runs at 1600 MHz.
In order to support Intel ® AMT (Management Engine) SLOT A0 must always be populated. In case of using more than a single DIMM it is recommended to populate A0 + B0 first.
Page 20
KTD-N0849-C Page 20
2.5 KTQ67 Graphics Subsystem
The KTQ67 support Intel ® HD Graphics 4000, 3000, 2500, 2000 or Intel ® HD Graphics, depending on actual CPU. However please notice that even though an Ivy Bridge CPU supporting Triple Independent Displays are used then on the KTQ67 only Dual Independent Displays are supported.
Supports 2x DVI (single channel) via DVI-I and DVI-D connector and optionally LVDS.
Up to two displays (any two display outputs) can be activated at the same time and be used to implement dual independent display support or mirror display support. PCIe and PCI graphics cards can be used to replace on-board graphics or in combination with on-board graphics.
2.5.1 Intel® HD Graphics 3000 (example)
Features of the Intel HD Graphics 3000 build into the i3, i5 and i7 processors, includes:
High quality graphics engine supporting
o DirectX10.1 and OpenGL 3.0 compliant
o Shader Model 4.1 support
o Intel ® Clear Video HD Technology
o Intel ® Quick Sync Video Technology
o Intel ® Flexible Display Interface (Intel ® FDI)
o Core frequency of 350 - 1300 (Turbo) MHz
o Memory Bandwidth up to 21.3 GB/s
o 12 3D Execution Units
o 1.62 GP/s and 2.7 GP/S pixel rate (DP outputs)
o Hardware Acceleration full MPEG2, full VC-1 and full AVC
o Dynamic Video Memory Technology (DVMT) support up to 1720 MB
LVDS panel Support (optional), 18/24 bit colours in up to WUXGA (1920x1200) @60 Hz and SPWG (VESA) colour coding. OpenLDI (JEIDA) colour coding is 18 bit with or without Dithering.
System Specification
Page 21
KTD-N0849-C Page 21
2.6 Power Consumption
In order to ensure safe operation of the board, the ATX12V power supply must monitor the supply voltage and shut down if the supplies are out of range – refer to the hardware manual for the actual power supply specification. The KTQ67 board is powered through the ATX/BTX connector and ATX+12V connector. Both connectors must be used in according to the ATX12V PSU standard.
The requirements to the supply voltages are as follows:
Supply
Min
Max
Note
VCC3.3 3.135V 3.465V
Should be ±5% for compliance with the ATX specification
Vcc 4.75V 5.25V
Should be ±5% for compliance with the ATX specification. Should be minimum 5.00V measured at USB connectors
in order to meet the requirements of USB standard.
+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 KTQ67 board
5VSB 4.75V 5.25V
Should be ±5% for compliance with the ATX specification
More detailed Static Power Consumption
On the following pages the power consumption of the KTQ67 Board is measured under:
1- DOS, idle, mean 2- Windows7, Running 3DMARK 2005 & BiT 6, mean 3- S1, mean 4- S3, mean 5- S4, mean
The following items were used in the test setup:
Low Power Setup
Standard system configuration equipped with PCI card, Internal graphics, 2x SATA disks, Intel i3 CPU, 2x DIMM (1GB Modules), CRT Monitor, Keyboard & Mouse. 1x 1-4GB USB Flash Stick.
High Power Setup
Standard system configuration equipped with PCI card, PCIex4, PCIex16, miniPCIe WLAN, 4x SATA disks, Intel i7 CPU, 4x DIMM (2+2+2+1 Modules), CRT Monitor, Keyboard & Mouse, 4x 1­4GB USB Flash Stick.
1. 12V active cooler (Intel BOX).
2. USB Keyboard/Mouse Genius
3. CRT Sampo AlphaScan 912
4. 2.5” HDD Fujitsu MHY2120BH
5. ATX Fortron 400W
6. Tektronix TDS5104B
7. Tektronix TCPA300
8. Tektronix TCP312
9. Fluke 289
10. ATX rail switch
Note: The Power consumption of Display and HD are not included.
ATX supplies
KTQ67
PSU
Gnd
Current Probe
Tektronix TDS5104B
System Specification
Page 22
KTD-N0849-C Page 22
Low Power Setup results:
DOS Idle, Mean, No external load
Supply
Current draw
Power consumption
+12V
0.258A
3.096W
+12V P4
1.363A
16.366W
+5V
1.417A
7.083W
+3V3
0.490A
1.618W
-12V
0.035A
0.416W
5VSB
0.006A
0.030W
Total
28.6W
Windows 7, mean 3DMARK2005 (first scene) & BiT 6
Supply
Current draw
Power consumption
+12V
0.293A
3.516W
+12V P4
2.642A
31.702W
+5V
2.170A
10.850W
+3V3
0.443A
1.463W
-12V
0.037A
0.442W
5VSB
0.006A
0.030W
Total
48.0W
S1 Mode, Mean, No external load
Supply
Current draw
Power consumption
+12V
0.212A
2.540W
+12V P4
0.238A
2.854W
+5V
0.828A
4.140W
+3V3
0.265A
0.878W
-12V
0.039A
0.469W
5VSB
0.006A
0.030W
Total
10.9W
S3 Mode, Mean, No external load
Supply
Current draw
Power consumption
+12V
0A
0W
+12V P4
0A
0W
+5V
0A
0W
+3V3
0A
0W
-12V
0A
0W
5VSB
0.153A
0.765W
Total
0.77W
S4 Mode, Mean, No external load
Supply
Current draw
Power consumption
+12V
0A
0W
+12V P4
0A
0W
+5V
0A
0W
+3V3
0A
0W
-12V
0A
0W
5VSB
0.120A
0.600W
Total
0.60W
System Specification
Page 23
KTD-N0849-C Page 23
High Power Setup results:
DOS Idle, Mean, No external load
Supply
Current draw
Power consumption
+12V
1.978A
23.737W
+12V P4
1.827A
21.924W
+5V
2.061A
10.306W
+3V3
1.032A
3.404W
-12V
0.032A
0.384W
5VSB
0.006A
0.030W
Total
59.8W
Windows 7, mean 3DMARK2005 (first scene) & BiT 6
Supply
Current draw
Power consumption
+12V
3.115A
37.380W
+12V P4
4.957A
59.484W
+5V
2.457A
12.285W
+3V3
1.659A
5.475W
-12V
0.038A
0.456W
5VSB
0.006A
0.030W
Total
115.1W
S1 Mode, Mean, No external load
Supply
Current draw
Power consumption
+12V
2.179A
26.144W
+12V P4
0.594A
7.128W
+5V
1.076A
5.380W
+3V3
1.348A
4.447W
-12V
0.043A
0.516W
5VSB
0.006A
0.030W
Total
43.6W
S3 Mode, Mean, No external load
Supply
Current draw
Power consumption
+12V
0A
0W
+12V P4
0A
0W
+5V
0A
0W
+3V3
0A
0W
-12V
0A
0W
5VSB
0.364A
1.820W
Total
1.82W
S4 Mode, Mean, No external load
Supply
Current draw
Power consumption
+12V
0A
0W
+12V P4
0A
0W
+5V
0A
0W
+3V3
0A
0W
-12V
0A
0W
5VSB
0.295A
1.475W
Total
1.48W
System Specification
Page 24
KTD-N0849-C Page 24
3 Connector Locations
3.1 KTQ67/Flex-Medical – frontside
Connector Location
DDR3 B0
Feature
PCIex16
ATX/ BTXPWR
USB12 Frontpanel
FAN_SYS2
Audioheader
COM3
PWRBTN
ATX+12V
FAN_SYS1
FAN_CPU
COM4
PCI0
Load Default
BIOS Settings
Sata5 - Sata0 - Sata1
Sata2 - Sata3 - Sata4
(see note)
LVDS
(optionally)
PCIex4
SPI recover
SPI
Notes: Sata0/Sata1support up to 6GB/s and Sata2/Sata3/Sata4/Sata5 support up to 3GB/S.
The LPT connector and the XDP connectors are not mounted in volume production.
XDP-PCH
(backside)
(see note)
PCI1
USB8
USB10
J12
(not used)
LPT
(see note)
XDP-CPU (see note)
Page 25
KTD-N0849-C Page 25
DVI-D
DVI-I
USB0
USB1 USB2
USB3
ETH2
COM1 COM2
ETH1
Connector Location
Page 26
KTD-N0849-C Page 26
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: Analogue Input.
AO: Analogue 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. IOD: Input / Output, CMOS level Schmitt-triggered. (Open drain output) 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.
Connector Definitions
Page 27
KTD-N0849-C Page 27
5 IO-Area Connectors
5.1 Display connectors (IO Area)
The KTQ67/Flex-Medical has two DVI connectors (stacked) and optionally one on-board LVDS panel interface. Both DVI connectors support single channel digital signals in a DVI-I type connector. Only the lower DVI connector support also analogue signals. Two graphic pipes are supported; meaning that up to two independent displays can be implemented using any two of the above mentioned graphic ports.
5.1.1 DVI (lower) connector – DVI-I
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 VSYNC AI
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 RED AI
C2 GREEN AI
C3 BLUE AI
C4 HSYNC AI
C5 GND PWR
IO-Area Connectors
The DVI-I connector is based on stacked DVI-I
connector type Kycon KVI42X-DA29S-S-A4N-W or similar. The lower connector is supporting both analogue and digital (single channel) signals.
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5.1.2 DVI-D (upper) connector – DVI-D
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. -
IO-Area Connectors
The DVI-I connector is based on stacked DVI-I
connector type Kycon KVI42X-DA29S-S-A4N-W or similar. It is supporting only digital signals (single channel).
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5.2 Ethernet Connectors (IO Area)
The KTQ67/Flex-Medical support two channels of 10/100/1000Mb Ethernet ports, ETH1 and ETH2. Both ports are Galvanic Isolated. ETH1 (left Ethernet connector) is based on Intel® Lewisville 82579LM Gigabit PHY with AMT 8.0 support and ETH2 (right Ethernet connector) is based on Intel® Hartwell 82574L PCI Express controller.
In order to achieve the specified performance of the Ethernet port, minimum Category 5 twisted pair cables must be used with 10/100MB and minimum 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.
The pinout of the RJ45 connectors is as follows:
Signal
PIN
Type
Ioh/Iol
Note
MDI3-
MDI3+
MDI1-
MDI2-
MDI2+
MDI1+
MDI0-
MDI0+
1 2 3 4 5 6 7 8
IO-Area Connectors
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5.3 USB Connectors (IO Area)
The KTQ67/Flex-Medical board contains two EHCI (Enhanced Host Controller Interface) host controllers (EHCI1 and EHCI2) that support up to fourteen USB 2.0 ports, twelve are available on the KTQ67/Flex-Medical. The USB2.0 ports allowing data transfers up to 480Mb/s and legacy Keyboard/Mouse and wakeup from sleep states are supported. Over-current detection on all fourteen USB ports is supported. The following USB connectors are available in the IO Area.
USB Port 0 - 3 (all via EHCI1) are supplied on the combined USB0, USB1, USB2 and USB3 connector.
Note: It is required to use only HiSpeed USB cable, specified in USB2.0 standard:
5.3.1 USB Connector 0/1/2/3 (USB0/1/2/3)
USB Ports 0, 1, 2 and 3 are mounted in a common stack connector.
Note
Type
Signal
PIN
Signal
Type
Note
1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
USB0-
USB0+
IO 1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
USB1-
USB1+
IO
1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
USB2-
USB2+
IO 1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
USB3-
USB3+
IO
Note 1: In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.
Signal
Description
USB0+ USB0­USB1+ USB1-
USB2+ USB2­USB3+ USB3-
Differential pair works as Data/Address/Command Bus.
5V/SB5V
5V supply for external devices. SB5V is supplied during powerdown to allow wakeup on USB device activity. Protected by resettable 1A fuse for each USB ports.
IO-Area Connectors
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5.4 COM1 and COM2 Connectors (IO Area)
Four RS232 serial ports are available on the KTQ67/Flex-Medical, COM1 and COM2 are available in the IO Area while the other COM ports are available on internal pin header connectors.
The typical definition of the signals in the COM ports is as follows:
Signal Description
TxD Transmitted Data, sends data to the communications link. The signal is set to the marking
state (-12V) on hardware reset when the transmitter is empty or when loop mode operation is initiated.
RxD Received Data, receives data from the communications link.
DTR Data Terminal Ready, indicates to the modem etc. that the on-board UART is ready to
establish a communication link.
DSR Data Set Ready, indicates that the modem etc. is ready to establish a communications link.
RTS Request To Send, indicates to the modem etc. 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 ringing signal from the telephone line.
The pinout of Serial ports COM1 is as follows:
Note
Pull U/D
Ioh/Iol Type Signal PIN Signal Type Ioh/Iol
Pull U/D
Note
- -
PWR
GND
5 9 RI I -
/5K - O DTR
4 8 CTS I -
/5K - O TxD
3 7 RTS O - /5K - I
RxD
2 6 DSR I -
/5K
/5K - I
DCD
1
IO-Area Connectors
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6 Internal Connectors
6.1 Power Connector (ATX/BTXPWR)
The KTQ67 board is designed to be supplied from a standard ATX (or BTX) power supply. Use of BTX supply is not required for operation, but may be required to drive high-power PCIe cards.
ATX/ BTX Power Connector (J45):
Note
Type
Signal
PIN
Signal
Type
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 on-board.
See chapter “Power Consumption” regarding input tolerances on 3.3V, 5V, SB5V, +12 and -12V (also refer to ATX specification version 2.2).
ATX+12V-4pin Power Connector (J46):
Note
Type
Signal
PIN
Signal
Type
Note
PWR
GND
2 4
+12V
PWR 1
PWR
GND
1 3
+12V
PWR
1
Note 1: Use of the 4-pin ATX+12V Power Connector is required.
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 in order to implement the supervision of the 5V and 3V3 supplies. These supplies are not supervised on-board.
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.
Internal Connectors
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6.2 Fan Connectors (FAN_CPU) (J28) and (FAN_SYS) (J29)
The FAN_CPU is used for the connection of the FAN for the CPU. The FAN_SYS can be used to power, control and monitor a fan for chassis ventilation etc.
The 4pin header is recommended to be used for driving 4-wire type Fan in order to implement FAN speed control. 3-wire Fan is also possible, but no fan speed control is integrated.
4-pin Mode:
PIN Signal Type Ioh/Iol
Pull U/D
Note
1 CONTROL
O - - 2 SENSE
I
-
4K7 3 +12V
PWR
- -
4 GND
PWR
- -
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 pulsed, typically twice per rotation.
12V +12V supply for fan. A maximum of 2000mA can be supplied from this pin.
GND Power Supply GND signal
3-pin Mode:
PIN Signal Type Ioh/Iol
Pull U/D
Note
-
2 SENSE
I
-
4K7 3 +12V
PWR
- -
4 GND
PWR
- -
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 pulsed, typically twice per rotation.
12V +12V supply for fan. A maximum of 2000mA can be supplied from this pin.
GND Power Supply GND signal
Internal Connectors
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6.3 PS/2 Keyboard and Mouse connector (KBDMSE) (J15)
Attachment of a PS/2 keyboard/mouse can be done through the pinrow connector KBDMSE (J15). Both interfaces utilize open-drain signalling 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 resettable fuse.
PIN Signal Type Ioh/Iol
Pull U/D
Note
1 KBDCLK
IOD
/14mA
2K7
2 KBDDAT
IOD
/14mA
2K7
3 MSCLK
IOD
/14mA
2K7
4 MSDAT
IOD
/14mA
2K7
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.
Internal Connectors
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6.4 Display connectors (Internal)
The KTQ67 provides optionally internal on-board LVDS panel interface. For IO Area Display Connectors (DVI-D and DVI-I), see earlier section.
Two graphic pipes are supported; meaning that up to two independent displays can be implemented using any two display connectors in IO Area - and Internal (LVDS) connector (optionally).
6.4.1 LVDS Flat Panel Connector (LVDS) (J39) (optionally)
Two graphic pipes are supported; meaning that up to two independent displays can be implemented using any two of display connectors (IO Area - and Internal connectors).
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
2K2Ω, 3.3V
OT
DDC CLK
11
12 DDC DATA
OT
2K2Ω, 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: The KTQ67 on-board LVDS connector supports single/dual channel, 18/24bit SPWG panels up
to resolution 1600x1200 or 1920x1080 (1920x1200 with limited frame rate is possible).
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 display. Power-on/off sequencing depending on selected (in BIOS setup) display type. 5V or 3.3V selected in BIOS setup. Maximum load is 1A.
DDC CLK
DDC Channel Clock
Notes: Windows API will be available to operate the BKLTCTL signal. Some Inverters have a limited
voltage range 0- 2.5V for this signal: If voltage is > 2.5V the Inverter might latch up. Some Inverters generates noise on the BKLTCTL signal, resulting in making the LVDS transmission failing (corrupted picture on the display). By adding a 1Kohm resistor in series with this signal, mounted in the Inverter end of the cable kit, the noise is limited and the picture is stable. If the Backlight Enable is required to be active high, then check the following BIOS Chipset setting: Backlight Signal Inversion = Enabled.
Internal Connectors
Internal Connectors
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KTD-N0849-C Page 36
6.5 SATA (Serial ATA) Disk interface (J22 – J27)
The KTQ67 board has an integrated SATA Host controller (integrated in the PCH) that supports independent DMA operation on six ports. One device can be installed on each port for a maximum of six SATA devices. A point-to-point interface (SATA cable) is used for host to device connections. Data transfer rates of up to 6.0Gb/s (typically 600MB/s) on SATA0 and SATA1 (blue connectors) and 3.0Gb/s (typically 300MB/s) on SATA2, SATA3, SATA4 and SATA5 (black connectors). In case mSATA is used then the SATA2 is disabled.
The SATA controller supports:
2 to 6-drive RAID 0 (data striping) 2-drive RAID 1 (data mirroring) 3 to 6-drive RAID 5 (block-level striping with parity). 4-drive RAID 10 (data striping and mirroring) 2 to 6-drive matrix RAID (different parts of a single drive can be assigned to different RAID devices). AHCI (Advanced Host Controller Interface) NCQ (Native Command Queuing). NCQ is for faster data access. Hot Swap Intel® Rapid Recover Technology 2 – 256TB volume (Data volumes only) Capacity expansion TRIM in Windows 7 (in AHCI and RAID mode for drives not part of a RAID volume). (TRIM is for SSD data garbage handling).
The RAID (Redundant Array of Independent Drives) functionality is based on a firmware system with support for RAID modes 0 1, 5 and 10.
SATA connector pinning: The pinout of SATA ports SATA0 (J27), SATA1 (J26), SATA2 (J25), SATA3 (J24), SATA4 (J23) and SATA5 (J22) is as follows:
PIN Signal Type Ioh/Iol
Pull
U/D
Note
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 SATA hard disk 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, 3, 4, 5 depending on SATA port.
Internal Connectors
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6.6 USB Connectors (USB)
The KTQ67 board contains two EHCI (Enhanced Host Controller Interface) host controllers (EHCI1 and EHCI2) that support up to fourteen USB 2.0 ports allowing data transfers up to 480Mb/s. Legacy Keyboard/Mouse and wakeup from sleep states are supported. Over-current detection on all fourteen USB ports is supported. The following USB ports are available on Internal Pinrows:
USB Port 6 and 7 (via EHCI1) are supplied on the USB6/7 internal pinrow FRONTPNL connector. USB Port 8 and 9 (via EHCI2) are supplied on the USB8/9 internal pinrow connector. USB Port 10 and 11 (via EHCI2) are supplied on the USB10/11 internal pinrow connector. USB Port 12 and 13 (via EHCI2) are supplied on the USB12/13 internal pinrow connector.
Note: It is required to use only HiSpeed USB cable, specified in USB2.0 standard:
6.6.1 USB Connector 6/7
See Frontpanel Connector (FRONTPNL) description.
6.6.2 USB Connector 8/9 (USB8/9) (J18)
USB Ports 8 and 9 are supplied on the internal USB8/9 pinrow connector J18.
Note
Type
Signal
PIN
Signal
Type
Note
1
PWR
5V/SB5V
1 2 5V/SB5V
PWR 1
IO
USB8-
3 4 USB9-
IO
IO
USB8+
5 6 USB9+
IO
PWR
GND
7 8 GND
PWR
NC
KEY
9 10 NC
NC
Signal Description
USB8+ USB8­USB9+ USB9-
Differential pair works as Data/Address/Command Bus.
5V/SB5V
5V supply for external devices. SB5V is supplied during powerdown to allow wakeup on USB device activity. Protected by resettable 1A fuse covering both USB ports.
Internal Connectors
Connector Definitions
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6.6.3 USB Connector 10/11 (USB10/11) (J17)
USB Ports 10 and 11 are supplied on the internal USB10/11 pinrow connector J17.
Note
Type
Signal
PIN
Signal
Type
Note
1
PWR
5V/SB5V
1 2 5V/SB5V
PWR 1
IO
USB10-
3 4 USB11-
IO
IO
USB10+
5 6 USB11+
IO
PWR
GND
7 8 GND
PWR
NC
KEY
9 10 NC
NC
Signal
Description
USB10+ USB10­USB11+ USB11-
Differential pair works as Data/Address/Command Bus.
5V/SB5V
5V supply for external devices. SB5V is supplied during powerdown to allow wakeup on USB device activity. Protected by resettable 1A fuse covering both USB ports.
6.6.4 USB Connector 12/13 (USB12/13) (J16)
USB Ports 12 and 13 are supplied on the internal USB12/13 pinrow connector J16.
Note
Type
Signal
PIN
Signal
Type
Note
1
PWR
5V/SB5V
1 2 5V/SB5V
PWR 1
IO
USB12-
3 4 USB13-
IO
IO
USB12+
5 6 USB13+
IO
PWR
GND
7 8 GND
PWR
NC
KEY
9 10 NC
NC
Signal Description
USB12+ USB12­USB13+ USB13-
Differential pair works as Data/Address/Command Bus.
5V/SB5V
5V supply for external devices. SB5V is supplied during powerdown to allow wakeup on USB device activity. Protected by resettable 1A fuse covering both USB ports.
Note 1: In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.
Internal Connectors
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6.7 Serial COM3 – COM4 Ports (J20, J21)
Three RS232 serial ports are available on the KTQ67 via pin-row connector. (COM1 and COM2 are in the IO area and is based on standard DB9 connector, see other section for more info).
The typical definition of the signals in the COM ports is as follows:
Signal Description
TxD
Transmitted Data, sends data to the communications link. The signal is set to the marking state (-12V) on hardware reset when the transmitter is empty or when loop mode operation is initiated.
RxD Received Data, receives data from the communications link.
DTR
Data Terminal Ready, indicates to the modem etc. that the on-board UART is ready to establish a communication link.
DSR Data Set Ready, indicates that the modem etc. is ready to establish a communications link.
RTS
Request To Send, indicates to the modem etc. 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 ringing signal from the telephone line.
The pinout of Serial ports COM3 (J19) and COM4 (J21) is as follows:
Note
Ioh/Iol
Type
Signal
PIN
Signal
Type
Ioh/Iol
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 COM3 and COM4 5V supply is fused with common 1.1A resettable fuse.
DB9 adapter cables (PN 821016 200mm long and 821017 100mm long) are available for implementing standard COM ports on chassis.
Internal Connectors
Page 40
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6.8 Audio Connector
The on-board Audio circuit implements 7.1+2 Channel High Definition Audio with UAA (Universal Audio Architecture), featuring five 24-bit stereo DACs and three 20-bit stereo ADCs.
6.8.1 Line2 and Mic2
Line2 and Mic2 are accessible via Feature Connector, see Feature connector description.
6.8.1 Audio Header Connector (AUDIO_HEAD) (J47)
Note
Type
Signal
PIN
Signal
Type
Note
AO
LFE-OUT
1 2 CEN-OUT
AO
PWR
AAGND
3 4 AAGND
PWR
AO
FRONT-OUT-L
5 6 FRONT-OUT-R
AO
PWR
AAGND
7 8 AAGND
PWR
AO
REAR-OUT-L
9 10 REAR-OUT-R
AO
AO
SIDE-OUT-L
11
12 SIDE-OUT-R
AO
PWR
AAGND
13
14 AAGND
PWR
AI
MIC1-L
15
16 MIC1-R
AI
PWR
AAGND
17
18 AAGND
PWR LINE1-L
19
20 LINE1-R
NC
NC
21
22 AAGND
PWR
PWR
GND
23
24 NC
NC O SPDIF-OUT
25
26 GND
PWR
Signal Description
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 Line 1 signals
F-SPDIF-OUT S/PDIF Output
AAGND Audio Analogue ground
Internal Connectors
Internal Connectors
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6.9 Power Button Connector (PWRBTN) (J48)
Signal Description
PWRBTN_IN# Power Button In. Toggle this signal low to start the ATX/TX PSU and boot the board.
PWR_LED PoWeR LED, active high (+5V via 470Ω).
SLEEP_LED Sleep LED, active high (+5V via 470Ω).
PIN Signal Type Ioh/Iol
Pull U/D
Note
1
PWRBTN_IN#
I
-
1K1 2 GND
PWR
- -
3 PWR_LED
O
-
470 4 SLEEP_LED
O
-
470
Internal Connectors
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KTD-N0849-C Page 42
6.10 Front Panel Connector (FRONTPNL) (J36)
Note
Pull U/D
Ioh/
Iol
Type Signal PIN Signal Type
Ioh/
Iol
Pull U/D
Note
- -
PWR
USB6/7_5V
1 2 USB6/7_5V
PWR - - - - USB6-
3 4 USB7-
- - - - USB6+
5 6 USB7+
- - - -
PWR
GND
7 8 GND
PWR - - - -
NC
NC
9 10 LINE2-L
- - - -
PWR
+5V
11
12 +5V
PWR - - - /7mA
O
SATA_LED#
13
14 SUS_LED
O
7mA - - - PWR
GND
15
16 PWRBTN_IN#
I 1K1
4K7 - I
RSTIN#
17
18 GND
PWR - - - -
PWR
SB3V3
19
20 LINE2-R
- - - -
PWR
AGND
21
22 AGND
PWR - - - -
AI
MIC2-L
23
24 MIC2-R
AI - -
Signal Description
USB10/11_5V
5V supply for external devices. SB5V is supplied during power down to allow
wakeup on USB device activity. Protected by resettable 1.1A fuse covering both USB ports.
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 connector flat cable or crimp terminals respectively.
SATA_LED#
SATA Activity LED, active low signal (via 470Ω). Recommended is using Low Power LED like HLMP4700 with anode connected to +5V (pin 11). When red color LED is used, possible weak glowing could be noticed when the LED supposed to be off. In order to eliminate this problem a resistor 3K3 can be connected in parallel with the LED or a diode can be connected in series with the LED.
SUS_LED Suspend Mode LED (active high signal). Output 3.3V via 470Ω.
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 a minimum 16ms, the reset process will be initiated. The reset process continues even though the Reset Input is kept low.
LINE2
Line2 is second stereo Line signals
MIC2
MIC2 is second stereo microphone input.
SB3V3 Standby 3.3V voltage
AGND
Analogue Ground for Audio
Note: In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.
Internal Connectors
Page 43
KTD-N0849-C Page 43
6.11 Feature Connector (FEATURE) (J30)
Note
Pull U/D
Ioh/Iol Type Signal PIN Signal Type Ioh/Iol
Pull U/D
Note
2
2M/ - I
CASE_OPEN#
1 2 SMBC
/4mA
10K/ 1 - 25/25mA O S5#
3 4 SMBD
/4mA
10K/ 1 - 25/25mA
O
PWR_OK
5 6 EXT_BAT
PWR - - - O FAN3OUT
7 8 FAN3IN
I - - - -
PWR
SB3V3
9 10 SB5V
PWR - - -
IOT
GPIO0
11
12 GPIO1
IOT - -
IOT
GPIO2
13
14 GPIO3
IOT - -
IOT
GPIO4
15
16 GPIO5
IOT - -
IOT
GPIO6
17
18 GPIO7
IOT - - -
PWR
GND
19
20 GND
PWR - - - I GPIO8
21
22 GPIO9 I - - I
GPIO10
23
24 GPIO11
I - - I GPIO12
25
26 GPIO13
IOT - -
IOT
GPIO14
27
28 GPIO15
IOT - -
IOT
GPIO16
29
30 GPIO17
IOT - - -
PWR
GND
31
32 GND
PWR - - - 8/8mA O EGCLK
33
34 EGCS#
O
8/8mA
- - 8/8mA EGAD
35
36 TMA0 O - PWR
+12V
37
38 GND
PWR - - - O FAN4OUT
39
40 FAN4IN
I - - - -
PWR
GND
41
42 GND
PWR - - - -
PWR
GND
43
44 S3#
O
25/25mA
-
Notes: 1. Pull-up to +3V3Dual (+3V3 or SB3V3). 2. Pull-up to on-board Battery.
Signal Description
CASE_OPEN#
CASE OPEN, 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 required.
SMBC SMBus Clock signal
SMBD SMBus Data signal
S3#
S3 sleep mode, active low output, optionally used to deactivate external system.
S5# S5 sleep mode, active low output, optionally used to deactivate external s ystem.
PWR_OK
PoWeR OK, signal is high if no power failures are detected. (This is not the same as the P_OK signal generated by ATX PSU).
EXT_BAT
(EXTernal BATtery) option for connecting + terminal of an external primary cell battery
(2.5 - 4.0 V) (– terminal connected to GND). The external battery is protected against
charging and can be used with or without the on-board battery installed.
FAN3OUT FAN 3 speed control OUTput, 3.3V PWM signal can be used as Fan control voltage.
FAN3IN FAN3 Input. 0V to +3V3 amplitude Fan 3 tachometer input.
FAN4OUT FAN 4 speed control OUTput, 3.3V PWM signal can be used as Fan control voltage.
FAN4IN FAN4 Input. 0V to +3V3 amplitude Fan 3 tachometer input.
SB3V3 Max. load is 0.75A (1.5A < 1 sec.)
SB5V StandBy +5V supply.
GPIO0..17
General Purpose Inputs / Output. These Signals may be controlled or monitored through the use of the KT-API-V2 (Application Programming Interface).
EGCLK Extend GPIO Clock signal
EGAD Extend GPIO Address Data signal
EGCS# Extend GPIO Chip Select signal, active low
TMA0 Timer Output
+12V Max. load is 0.75A (1.5A < 1 sec.)
Internal Connectors
Page 44
KTD-N0849-C Page 44
GPIO in more details.
The GPIO’s are controlled via the ITE IT8516F Embedded Controller. Each GPIO has 100pF to ground, clamping Diode to 3V3 and has multiplexed functionality. Some pins can be DAC (Digital to Analogue Converter output), PWM (Pulse Width Modulated signal output), ADC (Analogue to Digital Converter input), TMRI (Timer Counter Input), WUI (Wake Up Input), RI (Ring Indicator Input) or some special function.
Signal IT8516F pin name Type Description
GPIO0
DAC0/GPJ0
AO/IOS
GPIO1
DAC1/GPJ1
AO/IOS
GPIO2
DAC2/GPJ2
AO/IOS
GPIO3
DAC3/GPJ3
AO/IOS
GPIO4
PWM2/GPA2
O8/IOS
GPIO5
PWM3/GPA3
O8/IOS
GPIO6
PWM4/GPA4
O8/IOS
GPIO7
PWM5/GPA5
O8/IOS
GPIO8
ADC0/GPI0
AI/IS
GPIO9
ADC1/GPI1
AI/IS
GPIO10
ADC2/GPI2
AI/IS
GPIO11
ADC3/GPI3
AI/IS
GPIO12
ADC4/WUI28/GPI4
AI/IS/IS
GPIO13
RI1#/WUI0/GPD0
IS/IS/IOS
GPIO14
RI2#/WUI1/GPD1
IS/IS/IOS
GPIO15
TMRI0/WUI2/GPC4
IS/IS/IOS
GPIO16
TMRI1/WUI3/GPC6
IS/IS/IOS
GPIO17
L80HLAT/BAO/WUI24/GPE0
O4/O4/IS/IOS
Internal Connectors
Page 45
KTD-N0849-C Page 45
Warning: Don’t leave the jumper in position 1-2, otherwise if power is disconnected, the battery will fully deplete within a few weeks.
6.12 ”Load Default BIOS Settings” Jumper (J11)
The “Load Default BIOS Settings” Jumper (J11) can be used to recover from incorrect BIOS settings. As an example, incorrect BIOS settings coursing no display to turn on can be erased by the Jumper.
The Jumper has 3 positions: Pin 1-2, Pin2-3 (default position) and not mounted.
To Load Default BIOS Settings:
1. Turn off power completely (no SB5V).
2. Move the Jumper to pin 1-2 for ~10 seconds.
3. Move the Jumper back to position 2-3 (default position).
4. Turn on power (use the Power On Button if required to boot).
5. Motherboard might automatically reboot a few times. Wait until booting is completed.
6.13 ClrRTC (J12)
The ClrRTC (J12) connector is not used and may not be available. Do not install any jumper.
J11
Description
Pin3
Pin2
Pin1
Default position (same as no function)
Load Default BIOS Settings
• • •
No function
J12
Description
Pin3
Pin2
Pin1
No function
Clear ME CMOS settings (same effect as removing Lithium battery for 1 minute)
• • •
No function
Internal Connectors
!
Jumper (in Load Default BIOS Settings position)
J11 pin 3
J12
Page 46
KTD-N0849-C Page 46
Warning: If the jumper (J41) is mounted and you make BIOS Upgrade etc. then the BIOS
Recovery SPI Flash will be Upgraded and not the BIOS Default SPI Flash. This means that in case something goes wrong (power interruption or incorrect BIOS package used etc.) when Upgrading BIOS, then the BIOS Recovery SPI Flash might get corrupted.
6.14 SPI Recover Jumper (J41)
The SPI Recover Jumper is used to select BIOS Recovery SPI Flash instead of the BIOS Default SPI Flash.
Normally Jumper is not installed and board boots on the BIOS Default SPI Flash.
Only in case the Default BIOS gets corrupted and board do not boot:
Then turn off power Install Jumper (J41) Try rebooting
After rebooting, remove the Jumper before Default BIOS is recovered by reloading BIOS (for instance by using latest BIOS upgrade package from web product page).
Verify that Default BIOS has been recovered by making a successful reboot.
Internal Connectors
!
Page 47
KTD-N0849-C Page 47
6.15 SPI Connector (SPI) (J40)
The SPI Connector is normally not used. If however a SPI BIOS is connected via the SPI Connector then the board will try to boot on it.
Note
Pull U/D
Ioh/Iol
Type
Signal
PIN
Signal
Type
Ioh/Iol
Pull U/D
Note
- CLK
1 2 SB3V3
PWR - - - I CS0#
3 4 ADDIN
IO /10K
10K/
- NC
5 6 NC - - - 10K/
IO
MOSI
7 8 ISOLATE#
IO /10K
- IO
MISO
9
10
GND
PWR - -
Signal Description
CLK
Serial Clock
SB3V3
3.3V Standby Voltage power line. Normally output power, but when Motherboard is turned off then the on-board SPI Flash can be 3.3V power sourced via this pin.
CS0# CS0# Chip Select 0, active low.
ADDIN ADDIN input signal must be NC.
MOSI Master Output, Slave Input
ISOLATE#
The ISOLATE# input, active low, is normally NC, but must be connected to GND when loading SPI flash. Power Supply to the Motherboard must be turned off when loading SPI flash. The pull up resistor is connected via diode to 5VSB.
MISO Master Input, Slave Output
Internal Connectors
Page 48
KTD-N0849-C Page 48
6.16 XDP-CPU (Debug Port for CPU) (J14)
The XDP-CPU (Intel Debug Port for CPU) connector is not mounted and not supported. XDP connector layout (pads) is located on the backside of PCB and is prepared for the Molex 52435-2671 (or 52435-
2672).
Pin Signal Description Type Pull Up/Down Note
1
OBSFN_A0
2
OBSFN_A1
3
GND
PWR
-
4
NC
NC
-
5
NC
NC
-
6
GND
PWR
-
7
NC
NC
-
8
NC
NC
-
9
GND
PWR
-
10
HOOK0
11
HOOK1
12
HOOK2
13
HOOK3
14
HOOK4
15
HOOK5
16
+5V
PWR
-
17
HOOK6
18
HOOK7
500R
(500R by 2x1K in parallel)
19
GND
PWR
-
20
TDO
/51R
21
TRST#
/51R
22
TDI
/51R
23
TMS
/51R
24
NC
NC
-
25
GND
PWR
-
26
TCK0
/51R
Internal Connectors
Page 49
KTD-N0849-C Page 49
6.17 XDP-PCH (Debug Port for Chipset) (J13)
The XDP-PCH (Intel Debug Port for Chipset) connector is not mounted and not supported. XDP-PCH connector layout (pads) is prepared for the Molex 52435-2671 (or 52435-2672).
Pin Signal Description Type Pull Up/Down
Note
1 NC NC
-
2 NC NC
-
3
GND
PWR
-
4
NC
NC
-
5
NC
NC
-
6
GND
PWR
-
7
NC
NC
-
8
NC
NC
-
9
GND
PWR
-
10
HOOK0
RSMRST#
Connected to HOOK6
11
HOOK1
PWRBTN#
12
HOOK2
NC
-
13
HOOK3
NC
-
14
HOOK4
NC
-
15
HOOK5
NC
-
16
+5V
PWR
-
17
HOOK6
Connected to HOOK1
18
HOOK7
RESET#
500R
(500R by 2x1K in parallel)
19
GND
PWR
-
20
TDO
210R/100R
21
TRST#
22
TDI
210R/100R
23
TMS
210R/100R
24
NC
NC
-
25
GND
PWR
-
26
TCK0
/51R
Internal Connectors
Page 50
KTD-N0849-C Page 50
7 Slot Connectors (PCIe, PCI)
7.1 PCIe Connectors
The KTQ67 support one (x16) (16-lane) PCI Express port and one x4 PCI Express port (in a x16 PCI Express connector).
The 16-lane (x16) PCI Express (PCIe 2.0) port can be used for external PCI Express cards inclusive graphics card. It is located nearest the CPU. Maximum theoretical bandwidth using 16 lanes is 16 GB/s.
The 4-lane (x4) PCI Express (PCIe 2.0) can be used for any PCIex1, PCIex2 or PCIex4 cards inclusive “Riser PCIex1 to PCI Dual flexible card“.
7.1.1 PCI-Express x16 Connector (PCIe x16)
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]
CLKREQ
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]
CLKREQ
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]
Slot Connectors
Page 51
KTD-N0849-C Page 51
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]
CLKREQ
B48
A48
PEG_RXN[7]
GND
B49
A49
GND
PEG_TXP[8]
B50
A50
NC
PEG_TXN[8]
B51
A51
GND
GND
B52
A52
PEG_RXP[8]
GND
B53
A53
PEG_RXN[8]
PEG_TXP[9]
B54
A54
GND
PEG_TXN[9]
B55
A55
GND
GND
B56
A56
PEG_RXP[9]
GND
B57
A57
PEG_RXN[9]
PEG_TXP[10]
B58
A58
GND
PEG_TXN[10]
B59
A59
GND
GND
B60
A60
PEG_RXP[10]
GND
B61
A61
PEG_RXN[10]
PEG_TXP[11]
B62
A62
GND
PEG_TXN[11]
B63
A63
GND
GND
B64
A64
PEG_RXP[11]
GND
B65
A65
PEG_RXN[11]
PEG_TXP[12]
B66
A66
GND
PEG_TXN[12]
B67
A67
GND
GND
B68
A68
PEG_RXP[12]
GND
B69
A69
PEG_RXN[12]
PEG_TXP[13]
B70
A70
GND
PEG_TXN[13]
B71
A71
GND
GND
B72
A72
PEG_RXP[13]
GND
B73
A73
PEG_RXN[13]
PEG_TXP[14]
B74
A74
GND
PEG_TXN[14]
B75
A75
GND
GND
B76
A76
PEG_RXP[14]
GND
B77
A77
PEG_RXN[14]
PEG_TXP[15]
B78
A78
GND
PEG_TXN[15]
B79
A79
GND
GND
B80
A80
PEG_RXP[15]
CLKREQ
B81
A81
PEG_RXN[15]
NC
B82
A82
GND
Slot Connectors
Page 52
KTD-N0849-C Page 52
7.1.3 PCI-Express x4 Connector (PCIe x4) (J33)
The KTQ67 support one PCIex4 in a PCIex16 slot. All GND pins in the PCIEx16 connector are connected to GND, but all signal pins from pin 33 and above are all unconnected.
Note 1: 10K ohm pull-up to 3V3 Dual.
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]
1
CLKREQ
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]
NC
B31
A31
GND
GND
B32
A32
NC
Slot Connectors
Page 53
KTD-N0849-C Page 53
7.2 PCI Slot Connectors
KTQ67/Flex-Medical support 2 PCI slots PCI0 – PCI1 (J1 – J2).
Note Type Signal
Terminal
S C
Signal Type Note
PWR
-12V
F01
E01
TRST#
O
O TCK
F02
E02
+12V
PWR
PWR
GND
F03
E03
TMS O
NC I TDO
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 PWR
GND
F12
E12
GND
PWR
PWR
GND
F13
E13
GND
PWR
NC - -
F14
E14
GNT3#
OT
PWR
GND
F15
E15
RST# O
O CLKB
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# I 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
GNT1#
OT
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
SDONE
IO
PWR
+3.3V
F41
E41
SB0#
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
IOT
ACK64#
F60
E60
REQ64#
IOT
PWR
+5V
F61
E61
+5V
PWR
PWR
+5V
F62
E62
+5V
PWR
Slot Connectors
Page 54
KTD-N0849-C Page 54
7.2.1 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 risingedge of CLK and all other timing parameters are defined with respect to this edge. PCI operates at 33MHz.
PME#
Power Management Event interrupt signal. Wake up signal.
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 Ena
bles. 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
gr
ant 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.
Slot Connectors
Page 55
KTD-N0849-C Page 55
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 p
erform 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 55signaling 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 atte
ntion 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.
7.2.2 KTQ67 PCI IRQ & INT routing
Board type
Slot
REQ
GNT
IDSEL
INTA
INTB
INTC
INTD
KTQ67/Flex-Medical
0
REQ0
GNT0
17
INTA
INTB
INTC
INTD
1 REQ1
GNT1
18
INTF
INTG
INTH
INTE
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 0 and jumper in AD30.
Slot Connectors
Page 56
KTD-N0849-C Page 56
8 On-board - & mating connector types
The Mating connectors / Cables are connectors or cable kits which are fitting the On-board connector. The highlighted cable kits (in bold) are included in the “KTQ67 Cable & Driver Kit” PN 826599, in different quantities depending on type of connector. For example there are 4x 821017 COM cables and 6x 821035 SATA cables.
Connector
On-board Connectors
Mating Connectors / Cables
Manufacturer
Type no.
Manufacturer
Type no.
FAN_CPU
Foxconn
HF2704E-M1
AMP
1375820-4 (4-pole)
FAN_SYS
AMP
1470947-1
AMP
1375820-3 (3-pole)
KBDMSE
Molex
22-23-2061
Molex
22-01-2065
Kontron
KT 1046-3381
CDROM
Foxconn
HF1104E
Molex
50-57-9404
Molex
70543-0038
SATA
Hon Hai
LD1807V-S52T
Molex
67489-8005
Kontron
KT 821035 (cable kit)
ATXEWR
Molex
44206-0002
Molex
5557-24R
ATX+12V-4pin
Lotes
ABA-POW-003-K02
Molex
39-01-2045
EDP
Tyco
5-2069716-3
Tyco
2023344-3
LVDS
Don Connex
C44-40BSB1-G
Don Connex
A32-40-C-G-B-1
Kontron
KT 910000005
Kontron
KT 821515 (cable kit)
Kontron
KT 821155 (cable kit)
COM1,2, 3, 4
Wuerth
61201020621
Molex
90635-1103
Kontron
KT 821016 (cable kit)
Kontron
KT 821017 (cable kit)
USB68/9, 10/11, 12/13
Pinrex
512-90­10GBB2
Kontron
KT 821401 (cable kit)
USB6/7 (*)
(FRONTPNL)
-
Kontron
KT 821401 (cable kit)
AUDIO_HEAD
Molex
87831-2620
Molex
51110-2651
Kontron
KT 821043 (cable kit)
FRONTPNL
Pinrex
512-90-24GBB3
Molex
90635-1243
Kontron
KT 821042 (cable kit)
FEATURE
Foxconn
HS5422F
Don Connex
A05c-44-B-G-A-1-G
KT 1052-5885 (cable kit)
* USB6/USB7 is located in FRONTPNL connector. Depending on application KT 821401 can be used.
Note: Only one connector will be mentioned for each type of on-board connector even though several types with same fit, form and function are approved and could be used as alternative. Please also notice that standard connectors like DVI, PCIe, PCI, Ethernet and USB are not included in the list.
Onboard/mating connector
Page 57
KTD-N0849-C Page 57
9 System Resources
9.1 Memory Map
Address (hex)
Size (hex)
Description
0xFF000000
0xFFFFFFFF
1000000
Motherboard resources
0xFEE10000
0xFEFFFFFF
1F0000
PCI bus
0xFEE00000
0xFEE0FFFF
10000
Motherboard resources
0xFED94000
0xFEDFFFFF
6C000
PCI bus
0xFED90000
0xFED93FFF
4000
Motherboard resources
0xFED40000
0xFED8FFFF
50000
PCI bus
0xFED20000
0xFED3FFFF
20000
Motherboard resources
0xFED1C000
0xFED1FFFF
4000
Motherboard resources
0xFED1A000
0xFED1BFFF
2000
PCI bus
0xFED10000
0xFED19FFF
A000
Motherboard resources
0xFED09000
0xFED0FFFF
7000
PCI bus
0xFED08000
0xFED08FFF
1000
Motherboard resources
0xFED00400
0xFED07FFF
7BFF
PCI bus
0xFED00000
0xFED003FF
400
High Precision Event Timer
0xFEC00000
0xFECFFFFF
100000
Motherboard resources
0xFE52A010
0xFEBFFFFF
6D5FF0
PCI bus
0xFE52A000
0xFE52A00F
10
Intel® Management Engine Interface
0xFE529000
0xFE529FFF
1000
Intel® AMT – SOL (COM5)
0xFE528000
0xFE528FFF
1000
Intel® 82579LM Gigabit Network
0xFE527400
0xFE527FFF
C00
PCI bus
0xFE527000
0xFE5273FF
400
Intel® Chipset USB EHCI – 1C2D
0xFE526400
0xFE526FFF
C00
PCI bus
0xFE526000
0xFE5263FF
400
Intel® Chipset USB EHCI – 1C26
0xFE525800
0xFE525FFF
800
PCI bus
0xFE525000
0xFE5257FF
800
Intel® Chipset 6 port SATA ACHI – 1C02
0xFE524100
0xFE524FFF
F00
PCI bus
0xFE524000
0xFE5240FF
100
Intel® Chipset SMBus Controller – 1C22
0xFE520000
0xFE523FFF
4000
High Definition Audio Controller
0xFE500000
0xFE51FFFF
20000
Intel® 82579LM Gigabit Network
0xFE400000 0xFE4FFFFF
100000
Intel® Chipset PCIe Root port 1 – 1C26 LAN controller
0xFE000000
0xFE3FFFFF
400000
Video Controller
0xF0000000
0xFDFFFFFF
E000000
PCI bus
0xE0000000
0xEFFFFFFF
10000000
Motherboard resources
0xD0000000
0xDFFFFFFF
10000000
Video Controller
0xBFA00000
0xCFFFFFFF
10600000
PCI bus
0xC0000
0xDFFFF
20000
PCI bus
0xA0000 0xBFFFF 20000
VgaSave PCI bus
System Resources
Page 58
KTD-N0849-C Page 58
9.2 PCI Devices
Bus
#
Device
#
Function
#
Vendor
ID
Device
ID
Chip
Device Function
0 0 0
8086
0100
CPU
Intel – DRAM Controller
0 2 0
8086
0102
CPU
Intel - VGA Controller
0
22 0 8086
1C3A
Q67 Chipset
Intel – Management Engine
0
25 0 8086
1502
82579LM LAN
Intel - Ethernet Controller
0
26 0 8086
1C2D
Q67 Chipset
Intel - USB
0
27 0 8086
0403
Q67 Chipset
Intel - HD Audio
0
28 0 8086
1C10
Q67 Chipset
Intel – PCIe Root Port 1
0
29 0 8086
1C26
Q67 Chipset
Intel - USB
0
30 0 8086
244E
82801 PCI Bridge
Intel – PCI Bridge
0
31 0 8086
1C4E
Q67 Chipset
Intel - LPC
0
31 2 8086
1C03
Q67 Chipset
Intel - SATA AHCI Controller
0
31 3 8086
1C22
Q67 Chipset
Intel - SMBus
1 0 0
8086
10D3
82574L LAN
Intel - Ethernet Controller
System Resources
Page 59
KTD-N0849-C Page 59
9.3 Interrupt Usage
IRQ
System timer
PS/2 Keyboard
COM2 Selection in BIOS
COM1 Selection in BIOS
Intel(R) SMBus -1C22
COM4 Selection in BIOS
System CMOS/real-time watch
COM3 Selection in BIOS
PS2 Mouse
Numerical Data Processor
Intel(R) USB EHCI – 1C2D
Intel(R) Management Engine Interface
Intel(R) AMT – SOL (COM5)
Intel(R) SATA ACHI - 1C02
High Definition Audio
Intel(R) USB EHCI - 1C26
Notes
NMI IRQ0 X IRQ1
X
IRQ2 IRQ3 X IRQ4 X IRQ5 X IRQ6 IRQ7 X IRQ8 X IRQ9 IRQ10
X
IRQ11
IRQ12
X
IRQ13
X
IRQ14
IRQ15
IRQ16
X X
IRQ17
X
IRQ18
IRQ19
X
IRQ20
IRQ21
IRQ22
IRQ23
X X
IRQ24
IRQ25
IRQ26
System Resources
Page 60
KTD-N0849-C Page 60
9.4 IO Map
Address range (hex)
Size (hex)
Description
0x0000F130
0x0000F137
8
Standard Dual Channel IDE Controller
0x0000F120
0x0000F123
4
Standard Dual Channel IDE Controller
0x0000F110
0x0000F117
8
Standard Dual Channel IDE Controller
0x0000F100
0x0000F103
4
Standard Dual Channel IDE Controller
0x0000F0F0
0x0000F0FF
10
Standard Dual Channel IDE Controller
0x0000F0E0
0x0000F0E7
8
Intel® AMT – SOL (COM5)
0x0000F0D0
0x0000F0D7
8
Intel® 6 port SATA AHCI – 1C03
0x0000F0C0
0x0000F0C3
4
Intel® 6 port SATA AHCI – 1C03
0x0000F0B0
0x0000F0B7
8
Intel® 6 port SATA AHCI – 1C03
0x0000F0A0
0x0000F0A3
4
Intel® 6 port SATA AHCI – 1C03
0x0000F060
0x0000F07F
20
Intel® 6 port SATA AHCI – 1C03
0x0000F040
0x0000F05F
20
Intel® SMBus – 1C22
0x0000F000
0x0000F03F
40
Intel® HD Graphics family
0x0000E000
0x0000EFFF
1000
Intel® 82574L LAN, CIe Root port 4 – 1C10
0x00001180
0x0000119F
20
Motherboard resources
0x00000D00
0x0000FFFF
F300
PCI bus
0x00000A00
0x00000A2F
30
Motherboard resources
0x00000500
0x0000057F
80
Motherboard resources
0x000004D0
0x000004D1
2
Programmable interrupt controller
0x00000400
0x0000047F
80
Motherboard resources
0x000003F8
0x000003FF
8
COM1
0x000003E8
0x000003EF
8
COM4
0x000003C0
0x000003DF
20
Intel® HD Graphics family
0x000003B0
0x000003BB
C
Intel® HD Graphics family
0x000002F8
0x000002FF
8
COM2
0x000002E8
0x000002EF
8
COM3
0x00000290
0x0000029F
10
Motherboard resources
0x0000020E
0x0000020F
2
Motherboard resources
0x000000F0
0x000000FF
10
Numeric data processor
0x000000E0
0x000000EF
10
Motherboard resources
0x000000D0
0x000000DF
10
Direct memory access controller
0x000000A2
0x000000BF
1E
Motherboard resources
0x000000A0
0x000000A1
2
Programmable interrupt controller
0x00000090
0x0000009F
10
Motherboard resources
0x0000008F
0x0000008F
1
Direct memory access controller
0x0000008C
0x0000008E
3
Motherboard resources
0x00000089
0x0000008B
3
Direct memory access controller
0x00000088
0x00000088
1
Motherboard resources
0x00000087
0x00000087
1
Direct memory access controller
0x00000084
0x00000086
3
Motherboard resources
0x00000081
0x00000083
3
Direct memory access controller
0x00000072
0x00000080
F
Motherboard resources
0x00000070
0x00000071
2
System CMOS/real time clock
0x00000065
0x0000006F
B
Motherboard resources
0x00000064
0x00000064
1
Standard PS/2 Keyboard
0x00000062
0x00000063
2
Motherboard resources
0x00000061
0x00000061
1
System Speaker
0x00000060
0x00000060
1
Standard PS/2 Keyboard
0x00000044
0x0000005F
1C
Motherboard resources
0x00000040
0x00000043
4
System Timer
0x00000022
0x0000003F
1E
Motherboard resources
0x00000020
0x00000021
2
Programmable interrupt controller
0x00000010
0x0000001F
10
Motherboard resources
0x00000000
0x0000000F
10
Direct memory access controller
System Resources
Page 61
KTD-N0849-C Page 61
10 BIOS
The BIOS Setup is used to view and configure BIOS settings for the 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 BIOS settings will be loaded automatically when loading “Restore Default” see “Save & Exit” menu. In this Users Guide the default settings are indicated by bold. Please notice that “Restore User Defaults” might have different set of default values.
10.1 Main
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Main
Advanced
Chipset
Boot
Security
Save & Exit
BIOS Information
BIOS Vendor Core Version Compliancy BIOS Version Build Date and Time EC Firmware Version
Board Information Product Name PCB ID Serial # Part # Boot Count
System Language
System Date System Time
Access Level
American Megatrends
4.6.5.4 UEFI 2.3.1; PI 1.2 29 01/07/2014 13:58:49 V0.19 03/31/13
KTQ67/FLEX-Medical 03 01170492 64620000 18
[English]
[Wed 01/08/2014] [14:29:25]
Administrator
Choose the system default
language.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
The following table describes the changeable settings:
Feature
Options
Description
System Date
MM/DD/YYYY
Set the system date.
System Time
HH:MM:SS
Set the system time.
Blue text for settings that can be changed. White text for actual setting to be changed via the control keys
(Black text for settings that cannot be changed via control keys)
BIOS - Main
Page 62
KTD-N0849-C Page 62
10.2 Advanced
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Main
Advanced
Chipset
Boot
Security
Save & Exit
PCI Subsystem Settings
ACPI Settings Trusted Computing CPU Configuration SATA Configuration Intel ® Rapid Start Technology Intel TXT (LT) Configuration Intel ® Anti-Theft Technology Configuration AMT Configuration Acoustic Management Configuration USB Configuration Smart Settings Super IO Configuration Voltage Monitor Hardware Health Configuration LAN Configuration Delay Startup Serial Port Console Redirection CPU PPM Configuration
PCI, PCI-X and PCI Express
Settings.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
The Advanced (main) menu contains submenu selections which will be described in more details on the following pages.
In order to make a selection of a submenu activated the ↑↓ keys until the requested submenu becomes
white color, then activate the <Enter>.
BIOS - Advanced
Page 63
KTD-N0849-C Page 63
10.2.1 Advanced - PCI Subsystem Settings
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
PCI Bus Driver Version V 2.05.02
Enables or Disables 64 bit
capable Devices to be Decoded in Above 4G Address Space (Only if System Supports 64 bit PCI Decoding).
PCI 64bit Resources Handling
Above 4G Decoding
PCI Common Settings
PCI Latency Timer VGA Palette Snoop PERR# Generation SERR# Generation
PCI Express Settings
PCI Express GEN 2 Settings
[Disabled]
[32 PCI Bus Clocks] [Disabled] [Disabled] [Disabled]
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function
Selection
Description
Above 4G Decoding
Disabled
Enabled
Enables or Disables 64 bit capable Devices to be Decoded in Above 4G Address Space (Only if System Supports 64 bit PCI Decoding).
PCI Latency Timer
32 PCI Bus Clocks
64 PCI Bus Clocks 96 PCI Bus Clocks 128 PCI Bus Clocks 160 PCI Bus Clocks 192 PCI Bus Clocks 224 PCI Bus Clocks 248 PCI Bus Clocks
Value to be programmed into PCI Latency Timer Register.
VGA Palette Snoop
Disabled
Enabled
Enables or Disables VGA Palette Registers Snooping.
PERR# Generation
Disabled
Enabled
Enables or Disables PCI Device to Generate PERR#.
SERR# Generation
Disabled
Enabled
Enables or Disables PCI Device to Generate SERR#.
BIOS - Advanced
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PCI Express Settings
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
PCI Express Device Register Settings
Relaxed Ordering
Extended Tag No Snoop Maximum Payload Maximum Read Request
PCI Express Link Register Settings
ASPM Support
WARNING: Enabling ASPM may cause Some PCI-E devices to fail
Extended Synch
Link Training Retry Link Training Timeout (uS) Unpopulated Links Restore PCIe Registers
[Disabled]
[Disabled] [Enabled] [Auto] [Auto]
[Disabled]
[Disabled]
[5] 100 [Keep Link ON] [Disabled]
Enables or Disables PCI
Express Device Relaxed Ordering.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced BIOS - Advanced
Page 65
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Function
Selection
Description
Relaxed Ordering
Disabled
Enabled
Enables or Disables PCI Express Device Relaxed Ordering.
Extended Tag
Disabled
Enabled
If ENABLED allows Device to use 8-bit Tag field as a requester.
No Snoop
Disabled
Enabled
Enables or Disables PCI Express Device No Snoop option.
Maximum Payload
Auto
128 Bytes 256 Bytes 512 Bytes 1024 Bytes 2048 Bytes 4096 Bytes
Set Maximum Payload of PCI Express Device or allow System BIOS to select the value.
Maximum Read Request
Auto
128 Bytes 256 Bytes 512 Bytes 1024 Bytes 2048 Bytes 4096 Bytes
Set Maximum Read Request Size of PCI Express Device or allow System BIOS to select the value.
ASPM Support
Disabled
Auto Force L0s
Set the ASPM Level: Force L0s
- Force all links to L0s State: Auto – BIOS auto configure: Disable – Disabled ASPM
Extended Synch
Disabled
Enabled
If ENABLED allows generation of Extended Synchronization patterns.
Link Training Retry
Disabled 2 3
5
Defines number of Retry Attempts software will take to retrain the link if previous training attempt was unsuccessful.
Link Training Timeout (uS)
100 (note1)
Defines number of Microseconds software will wait before polling ´Link Training´ bit in Link Status register. Value range from 1 to 100uS.
Unpopulated Links
Keep Link ON
Disable Link
In order to save power, software will disable unpopulated PCI Express links, if this option set to ´Disabled Link´.
Restore PCIe Registers
Enabled
Disabled
On non-PCI Express aware OS’s (Pre Windows Vista) some devices may not be correctly reinitialized after S3.
Enabling this restores PCI Express device configurations on S3 resume. Warning: Enabling this may cause issues with other hardware after S3 resume.
Note1: Use either digit keys to enter value or +/- keys to increase/decrease value. Don’t use mix of digit keys and +/- keys.
BIOS - Advanced
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PCI Express GEN 2 Settings
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
PCI Express GEN2 Device Register Settings
In device Functions that
support Completion Timeout programmability, modify the Completion Timeout value is allowed. Default: 50us to 50ms.
Shorter: shorter timeout ranges
supported by hardware. Longer: software will use
longer
timeout ranges.
Completion Timeout
ARI Forwarding AtomicOp Requester Enable AtomicOp Egress Blocking IDO Request Enable IDO Completion Enable LTR Mechanism Enable End-End TLP Prefix Blocking
[Default]
[Disabled] [Disabled] [Disabled] [Disabled] [Disabled] [Disabled] [Disabled]
PCI Express GEN2 Link Register Settings
Target Link Speed
Clock Power Management Compliance SOS Hardware Autonomous Width Hardware Autonomous Speed
[Auto]
[Disabled] [Disabled] [Enabled] [Enabled]
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced
Page 67
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Function Selection Description
Completion Timeout
Default
Shorter Longer Disabled
In device Functions that support Completion Timeout programmability, modify the Completion Timeout range value is allowed.
Default: 50us to 50ms. Shorter: shorter ranges supported by HW. Longer: longer ranges implemented by SW.
ARI Forwarding
Disabled
Enabled
If supported by HW and Enabled, the Downstream Port disables its traditional Device Number field being 0 enforcement when turning a Type1 Configuration Request into a Type0 Configuration Request, permitting access to Extended Functions in an ARI Device immediately below the port.
AtomicOp Requester Enable
Disabled
Enabled
If supported by HW and Enabled, initiate AtomicOp Requests only if Bus Master Enable bit is in the Command Register Set.
AtomicOp Egress Blocking
Disabled
Enabled
If supported by HW and Enabled, outbound AtomicOp Requests via Egress Ports will be blocked.
IDO Request Enable
Disabled
Enabled
If supported by HW and Enabled, permit setting the number of ID-Based Ordering (IDO) bit (Attribute[2]) requests to be initiated.
IDO Completion Enable
Disabled
Enabled
If supported by HW and Enabled, permit setting the number of ID-Based Ordering (IDO) bit (Attribute[2]) requests to be initiated.
LTR Mechanism Enable
Disabled
Enabled
If supported by HW and Enabled, enable the Latency Tolerance Reporting (LTR) Mechanism.
End-End TLP Prefix Blocking
Disabled
Enabled
If supported by HW and Enabled, block forwarding of TLPs containing End-End TLP Prefixes.
Target Link Speed
Auto
Force to 2.5 GT/s Force to 5.0 GT/s
If supported by HW and set to ´Force to 2.5 GT/s´ for Downstream Ports, this sets an upper limit on link operational speed by restricting the values advertised by the Upstream component in its training sequences. When ´Auto´ is selected HW initialized data will be used.
Clock Power Management
Disabled
Enabled
If supported by HW and Enabled, device is permitted to use CLKREQ# signal for power management of Link clock in accordance to protocol defined in appropriate form factor specification.
Compliance SOS
Disabled
Enabled
If supported by HW and Enabled, force LTSSM to send SKP Ordered Sets between sequences when sending Compliance Pattern or Modified Compliance Pattern.
Hardware Autonomous Width
Enabled
Disabled
If supported by HW and Disabled, disable the HW ability to change link width except width size reduction for the purpose of correcting unstable link operation.
Hardware Autonomous Speed
Enabled
Disabled
If supported by HW and Disabled, disable the HW ability to change link speed except speed rate reduction for the purpose of correcting unstable link operation.
BIOS - Advanced
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10.2.2 Advanced - APCI Settings
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
ACPI Settings
Enable ACPI Auto Configuration
Enable Hibernation ACPI Sleep State
Lock Legacy Resources S3 Video Repost
[Disabled]
[Enabled] [Both S1 and S3 avai…)] [Disabled] [Disabled]
Enables or Disables BIOS APCI
Auto Configuration.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Enable ACPI Auto Configuration
Disabled
Enabled
Enables or Disables BIOS APCI Auto Configuration.
Enable Hibernation
Disabled
Enabled
Enables or Disables System ability to Hibernate (OS/S4 Sleep State). This option may be not effective with some OS.
ACPI Sleep State
Suspend Disabled S1 only(CPU Stop Clock) S3 only (Suspend to RAM)
Both S1 and S3 available…
Select the highest ACPI sleep state the system will enter when the SUSPEND button is pressed.
Lock Legacy Resources
Disabled
Enabled
Enables or Disables Lock of Legacy Resources.
S3 Video Repost
Disabled
Enabled
Enables or Disables S3 Video Repost.
BIOS - Advanced
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10.2.3 Advanced - Trusted Computing
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
TPM Configuration
TPM Support
TPM State
Pending TPM operation
Current TPM Status Information TPM Enabled Status: TPM Active Status: TPM Owner Status:
[Enable]
[Disabled]
[None]
[Disabled] [Deactivated] [UnOwned]
Enables or Disables BIOS support for security device. O.S.
will not show Security Device. TCG EFI protocol and INT1A interface will not be available.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
TPM Support
Disabled
Enabled
Enables or Disables BIOS support for security device. O.S. will not show Security Device. TCG EFI protocol and INT1A interface will not be available.
TPM State
Disabled
Enabled
Turn TPM Enable/Disable. NOTE: Your Computer will reboot during restart in order to change State of TPM.
Pending operation
None
Enable Take Ownership Disable Take Ownership TPM Clear
Schedule an Operation for the Security Device. NOTE: Your Computer will reboot during restart in order to change State of the Device.
BIOS - Advanced
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10.2.4 Advanced - CPU Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
CPU Configuration
Intel® Pentium ® CPU G850 @ CPU Signature Microcode Patch Max CPU Speed
Min CPU Speed CPU Speed
Processor Cores Intel HT Technology Intel VT-x Technology Intel SMX Technology 64-bit
L1 Data Cache L1 Code Cache L2 Cache L3 Cache
Hyper-threading
Active Processor Cores Limit CPUID Maximum Execute Disable Bit Intel Virtualization Technology
2.90GHz 206a7 28 2900 MHz 1600 MHz 2900 MHz 2 Not Supported Supported Not Supported Supported
32 kB x 2 32 kB x 2 256 kB x 2 3072 kB
[Enabled]
[All] [Disabled] [Enabled] [Disabled]
Enabled for Windows XP and
Linux (OS optimized for Hyper­Threading Technology) and Disabled for other OS (OS not optimized for Hyper-Threading Technology). When Disabled only one thread per enabled core is enabled.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Note1: Not present if using CPU not supporting this feature.
Function
Selection
Description
Hyper-threading (Note1)
Disabled Enabled
Enabled for Windows XP and Linux (OS optimized for Hyper-Threading Technology) and Disabled for other OS (OS not optimized for Hyper-Threading Technology). When Disabled only one thread per enabled core is enabled.
Active Processor Cores
All
1
Number of cores to enable in each processor package.
Limit CPUID Maximum
Disabled
Enabled
Disabled for Windows XP
Execute Disable Bit
Disabled
Enabled
XD can prevent certain classes of malicious buffer overflow attacks when combined with supporting OS (Windows Server 2003 SP1, Windows XP SP2, SuSE Linux 9.2, RedHat Enterprise 3 Update 3.)
Intel Virtualization Technology
Disabled
Enabled
When enabled, a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology.
BIOS - Advanced
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Notes:
Intel HT Technology (Hyper Threading Technology) is a performance feature which allows one core on the processor to appear like 2 cores to the operating system. This doubles the execution resources available to the O/S, which potentially increases the performance of your overall system.
Intel VT-x Technology (Virtualization Technology) Previously codenamed "Vanderpool", VT-x represents Intel's technology for virtualization on the x86 platform. In order to support “Virtualization Technology” the CPU must support VT-x and the BIOS setting “Intel Virtualization Technology” must be enabled.
Intel SMX Technology (Safer Mode Extensions Technology) is a part of the Trusted Execution Technology.
BIOS - Advanced
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10.2.5 Advanced - SATA Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
SATA Controller(s)
SATA Mode Selection
SATA Controller Speed
Software Feature Mask Configuration
Serial ATA Port 0 Software Preserve
Port 0 Hot Plug External SATA SATA Device Type Spin Up Device
Serial ATA Port 1 Software Preserve
Port 1 Hot Plug External SATA SATA Device Type Spin Up Device
Serial ATA Port 2 Software Preserve
Port 2 Hot Plug External SATA Spin Up Device
[Enabled]
[ACHI] [Gen3]
ST3120827AS (120. NOT SUPPORTED
[Enabled] [Disabled] [Disabled] [Hard Disk Driver] [Disabled]
Empty Unknown
[Enabled] [Disabled] [Disabled] [Hard Disk Driver] [Disabled]
Empty Unknown
[Enabled] [Disabled] [Disabled] [Disabled]
░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░ ░
Enable or Disable SATA Device.
→← : Select Screen ↑↓
: Select Item
Enter: Select +/
- : Change Opt.
F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
(Scroll indicator bar)
Note: By scrolling down (or up) also settings for Serial ATA Port 3 - 5 can be accessed.
Note: in the above BIOS menu the functions below the submenu Software Feature Mask Configuration
will be described after the submenu description.
Function Selection Description
SATA Controller(s)
Disabled
Enabled
Enable or Disable SATA Device.
SATA Mode Selection
IDE
ACHI
RAID
Determines how SATA controller(s) operate.
SATA Controller Speed
Gen1 Gen2
Gen3
Indicates the maximum speed the SATA controller can support.
BIOS - Advanced
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Software Feature Mask Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
RAID0
RAID1 RAID10 RAID5 Intel Rapid Recovery Technology OROM UI and BANNER HDD Unlock LED Locate IRRT Only on eSATA Smart Response Technology OROM UI Delay
[Enabled]
[Enabled] [Enabled] [Enabled] [Enabled] [Enabled] [Enabled] [Enabled] [Enabled] [Enabled] [2 Seconds]
Enables or Disables RAID0
feature.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced
Page 74
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Submenu Software Feature Mask Configuration description:
Function Selection Description
RAID0
Disabled
Enabled
Enable or disable RAID0 feature.
RAID1
Disabled Enabled
Enable or disable RAID1 feature.
RAID10
Disabled
Enabled
Enable or disable RAID10 feature.
RAID5
Disabled Enabled
Enable or disable RAID5 feature.
Intel Rapid Recovery Technology
Disabled
Enabled
Enable or disable Intel Rapid Recovery Technology.
OROM UI and BANNER
Disabled Enabled
If enabled, then the OROM UI is shown. Otherwise, no OROM banner or information will be displayed if all disks and RAID volumes are Normal.
HDD Unlock
Disabled
Enabled
If enabled, indicates that the HDD password unlock in the OS is enabled.
LED Locate
Disabled Enabled
If enabled, indicates that the LED/SGPIO hardware is attached and ping to locate feature is enabled on the OS.
IRRT Only on eSATA
Disabled Enabled
If enabled, then only IRRT volumes can span internal and eSATA drives. If disabled, then any RAID volume can span internal and eSATA drives.
Smart Response Technology
Disabled
Enabled
Enable or disable Smart Response Technology
OROM UI Delay
2 Seconds
4 Seconds 6 Seconds 8 Seconds
If enabled, indicates the delay of the OROM UI Splash Screen in normal status.
BIOS - Advanced
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Remaining SATA Configuration menu description:
Function Selection Description
Port 0
Disabled
Enabled
Enable or Disable SATA Port.
Hot Plug
Disabled
Enabled
Designates this port as Hot Pluggable.
External SATA
Disabled
Enabled
External SATA Support.
SATA Device Type
Hard Disk Drive
Solid State Drive
Identify the SATA port is connected to Solid State Drive or Hard Disk Drive.
Spin Up Device
Disabled
Enabled
On an edge detect from 0 to 1, the PCH starts a COMRESET initialization sequence to the device.
Port 1
Disabled
Enabled
Enable or Disable SATA Port.
Hot Plug (see same function above) (see same function above)
External SATA (see same function above) (see same function above)
SATA Device Type (see same function above) (see same function above)
Spin Up Device (see same function above) (see same function above)
Port 2
Disabled Enabled
Enable or Disable SATA Port.
Hot Plug
(see same function above) (see same function above)
External SATA
(see same function above) (see same function above)
Spin Up Device
(see same function above) (see same function above)
Port 3
Disabled Enabled
Enable or Disable SATA Port.
Hot Plug
(see same function above) (see same function above)
External SATA
(see same function above) (see same function above)
Spin Up Device
(see same function above) (see same function above)
Port4
Disabled
Enabled
Enable or Disable SATA Port.
Hot Plug
(see same function above) (see same function above)
External SATA
(see same function above) (see same function above)
Spin Up Device
(see same function above) (see same function above)
Port5
Disabled Enabled
Enable or Disable SATA Port.
Hot Plug
(see same function above) (see same function above)
External SATA
(see same function above) (see same function above)
Spin Up Device
(see same function above) (see same function above)
BIOS - Advanced
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10.2.6 Advanced - Intel ® Rapid Start Technology
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Intel ® Rapid Start Technology
No valid iFFS partition found. Entry on S3 RTC Wake Entry After Active Page Threshold Support iFFS Display Save/Restore
[Enabled]
[Enabled] [10 minutes] [Disabled] [Disabled]
Enable or disable Intel ® Rapid
Start Technology.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Intel ® Rapid Start Technology
Disabled Enabled
Enable or disable Intel ® Rapid Start Technology.
Entry on S3 RTC Wake
Enabled
Disabled
iFFS invocation upon S3 RTC wake.
Entry After
Immediately
1 minute 2 minutes 5 minutes
10 minutes
15 minutes 30 minutes 1 hour
2 hours
Enable RTC wake timer at S3 entry.
Active Page Threshold Support
Disabled Enabled
Support RST with small partition.
iFFS Display Save/Restore
Disabled Enabled
iFFS Display Save/Restore.
BIOS - Advanced
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10.2.7 Advanced - Intel TXT (LT) Configuration
SMX (Intel Secure Mode Extension) instructions are enabled if supported by the CPU, so no BIOS settings are present.
VT (Intel Virtualization Technology) is enabled/disabled in the menu: Advanced > CPU Configuration.
VT-d can be enabled/disabled in the menu: Chipset > System Agent (SA) Configuration.
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Intel Trusted Execution Technology Configuration
Intel TXT support only can be enabled/disabled if SMX is enabled. VT and VT-d support must also be enabled prior to TXT.
Secure Mode Extensions (SMX) Enabled
Intel TXT support [Disabled]
Enables or Disables Intel ®
TXT (LT) support.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function
Selection
Description
Intel TXT support
Disabled
Enabled
Enables or Disables Intel ® TXT (LT) support.
BIOS - Advanced
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10.2.8 Advanced - Intel ® Anti-Theft Technology Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Intel ® Anti-Theft Technology Configuration
Intel ® Anti-Theft Technology [Disabled]
Intel ® Anti-Theft Technology Rec 3 Enter Intel ® AT Suspend Mode [Disabled]
Enables or Disables Intel ® AT
in BIOS for testing only.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function
Selection
Description
Intel ® Anti-Theft Technology
Disabled Enabled
Enables or Disables Intel ® AT in BIOS for testing only.
Intel ® Anti-Theft Technology Rec
3 (allowed 1 – 64)
Set the number of times Recovery attempt will be allowed.
BIOS - Advanced
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10.2.9 Advanced - AMT Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Intel AMT
BIOS Hotkey Pressed MEBx Selection Screen Hide Un-Configure ME Confirmation MEBx Debug Message Output Un-Configure ME AMT Wait Timer Disable ME ASF Active Remote Assistance Process USB Configure PET Progress AMT CIRA Timeout
Watchdog
OS Timer
BIOS Timer
[Disabled]
[Disabled] [Disabled] [Disabled] [Disabled] [Disabled] 0 [Disabled] [Enabled] [Disabled] [Enabled] [Enabled] 0
[Disabled]
0 0
Enable/Disable Intel ® Active
Management Technology BIOS Extension. Note: iAMT H/W is always enabled. This option just controls the BIOS Extension execution. If enabled, this requires additional firmware in the SPI device.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Intel AMT
Disabled
Enabled
Enable/Disable Intel ® Active Management Technology BIOS Extension.
Note: iAMT H/W is always enabled. This option just controls the BIOS Extension
execution. If enabled, this requires additional firmware in
the SPI device.
BIOS Hotkey Pressed (Note1)
Disabled
Enabled
OEMFlag Bit 1: Enable/Disabled BIOS hotkey press.
MEBx Selection Screen (Note1)
Disabled
Enabled
OEMFlag Bit 2: Enable/Disabled BIOS MEBx Selection Screen.
Hide Un-Configure ME Confirmation (Note1)
Disabled
Enabled
OEMFlag Bit 6: Hide Un-Configure ME without password
Confirmation Prompt
MEBx Debug Message Output (Note1)
Disabled
Enabled
OEMFlag Bit 14: Enable MEBx Debug Message Output.
Un-Configure ME (Note1)
Disabled
Enabled
OEMFlag Bit 15: Un-Configure ME without password.
BIOS - Advanced
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Note1: Only if Intel AMT = Enabled.
Note2: This Watchdog function is unsupported. Recommendation, use Watchdog function present in Hardware Health Configuration menu.
Note3: Only if Watchdog = Enabled.
Note4: To enter number use digit keys and/or +/- keys.
Note5: Only if Active Remote Assistance Process = Enabled.
Function
Selection
Description
AMT Wait Timer (Note1) 0 - 65535 (Note4)
Set timer to wait before sending ASF_GET_BOOT_OPTIONS.
Disable ME (Note1)
Disabled
Enabled
Set ME to Soft Temporary Disabled.
ASF (Note1)
Disabled Enabled
Enable/Disabled Alert Specification Format.
Active Remote Assistance Process (Note1)
Disabled
Enabled
Trigger CIRA boot.
USB Configure (Note1)
Disabled Enabled
Enable/Disable USB Configure function.
PET Progress (Note1)
Disabled
Enabled
Users can Enable/Disable PET Events progress to receive PET events or not.
AMT CIRA Timeout (Note1) (Note5)
0 – 255 (Note4)
OEM defined timeout for MPS connection to be established.
0 – use the default timeout value of 60 seconds.
255 – MEBX waits until the connection succeeds.
Watchdog (Note2)
Disabled
Enabled
Enable/Disable Watchdog Timer.
OS Timer (Note3) 0 - 65535 (Note4) Set OS watchdog timer.
BIOS Timer (Note3) 0 - 65535 (Note4) Set BIOS Watchdog Timer.
BIOS - Advanced
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10.2.10 Advanced - Acoustic Management Configuration
Note:
Automatic acoustic management (AAM) is a method for reducing acoustic emanations in AT Attachment (ATA) mass storage devices, such as ATA hard disk drives and ATAPI optical disc drives. AAM is an optional feature set for ATA/ATAPI devices; when a device supports AAM, the acoustic management parameters are adjustable through a software or firmware user interface.
The ATA/ATAPI sub-command for setting the level of AAM operation is an 8-bit value from 0 to 255. Most modern drives ship with the vendor-defined value of 0x00 in the acoustic management setting. This often translates to the max-performance value of 254 stated in the standard. Values between 128 and 254 (0x80 - 0xFE) enable the feature and select most-quiet to most-performance settings along that range. Though hard drive manufacturers may support the whole range of values, the settings are allowed to be banded so many values could provide the same acoustic performance.
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Acoustic Management Configuration
Automatic Acoustic Management
Sata Port 0 ST3120827AS
Acoustic Mode
[Disabled]
[Not Available]
Option to Enable or Disable Automatic Acoustic Management
→← : Select Screen ↑↓
: Select Item
Enter: Select +/
- : Change Opt.
F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Automatic Acoustic Management
Enabled
Disabled
Option to Enable or Disable Automatic Acoustic Management.
BIOS - Advanced
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10.2.11 Advanced - USB Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
USB Configuration
USB Devices:
2 Hubs
Legacy USB Support USB Mass Storage Driver Support
USB transfer time-out Device reset time-out Device power-up delay
[Enabled]
[Enabled]
[20 sec] [20 sec] [Auto]
Enables Legacy USB support.
AUTO option disables legacy support if no USB devices are connected. DISABLE option will keep USB devices available only for EFI applications.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function
Selection
Description
Legacy USB Support
Enabled
Disabled Auto
Enables Legacy USB support. AUTO option disables legacy support if no
USB devices are connected. DISABLE option will keep USB devices available only for EFI applications.
USB Mass Storage Driver Support
Enabled
Disabled
Enable/disable USB Mass Storage Driver Support.
USB transfer time-out
1 sec
5 sec 10 sec
20 sec
The time-out value for Control, Bulk, and Interrupt transfers.
Device reset time-out
10 sec 20 sec 30 sec 40 sec
USB mass storage device Start Unit command time-out.
Device power-up delay
Auto
Manual
Maximum time the device will take before it properly reports itself to the Host Controller. ‘Auto’ uses default value: for a Root port it is 100 ms, for a Hub port the delay is taken from Hub descriptor.
BIOS - Advanced
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10.2.12 Advanced - SMART Settings
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
SMART Settings
SMART Self Test
[Disabled]
Run SMART Self Test on all HDDs during POST.
→← : Select Screen ↑↓
: Select Item
Enter: Select +/
- : Change Opt.
F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Note:
S.M.A.R.T. (Self-Monitoring, Analysis and Reporting Technology; often written as SMART) is a monitoring system for computer hard disk drives to detect and report on various indicators of reliability, in the hope of anticipating failures.
Function Selection Description
SMART Self Test
Disabled
Enabled
Run SMART Self-Test on all HDDs during POST.
BIOS - Advanced
Page 84
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10.2.13 Advanced - Super IO Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Super IO Configuration
Super IO Chip
Serial Port 1 Configuration
Serial Port 2 Configuration
Super IO Chip
Serial Port 3 Configuration Serial Port 4 Configuration
IT8516F
W83627H
Set Parameters of Serial Port 1
(COMA)
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
The 5 submenus are shown and described on the following pages.
BIOS - Advanced
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Serial Port 1 Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Serial Port 1 Configuration
Serial Port
Device Settings
Change Settings
[Enabled]
IO=3F8h; IRQ=4;
[Auto]
Enable or Disable Serial Port
(COM)
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Note1: only if Serial Port = Enabled
Function Selection Description
Serial Port
Disabled
Enabled
Enable or Disable Serial Port (COM)
Change Settings (Note1)
Auto
IO=3F8h; IRQ=4; IO=3F8h; IRQ=3,4,5,6,7,10,11,12; IO=2F8h; IRQ=3,4,5,6,7,10,11,12; IO=3E8h; IRQ=3,4,5,6,7,10,11,12; IO=2E8h; IRQ=3,4,5,6,7,10,11,12;
Select an optimal setting for Super IO device.
BIOS - Advanced
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Serial Port 2 Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Serial Port 2 Configuration
Serial Port
Device Settings
Change Settings
[Enabled]
IO=2F8h; IRQ=3;
[Auto]
Enable or Disable Serial Port
(COM)
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Note1: only if Serial Port = Enabled
Function Selection Description
Serial Port
Disabled
Enabled
Enable or Disable Serial Port (COM)
Change Settings (Note1)
Auto
IO=2F8h; IRQ=3; IO=3F8h; IRQ=3,4,5,6,7,10,11,12; IO=2F8h; IRQ=3,4,5,6,7,10,11,12; IO=3E8h; IRQ=3,4,5,6,7,10,11,12; IO=2E8h; IRQ=3,4,5,6,7,10,11,12;
Select an optimal setting for Super IO device.
BIOS - Advanced
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Serial Port 3 Configuration
Note1: only if Serial Port = Enabled
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Serial Port 3 Configuration
Serial Port
Device Settings
Change Settings Device Mode
[Enabled]
IO=3E8h; IRQ=7;
[Auto] [Standard Serial Po…]
Enable or Disable Serial Port
(COM)
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Serial Port
Disabled Enabled
Enable or Disable Serial Port (COM)
Change Settings (Note1)
Auto
IO=3E8h; IRQ=7; IO=3F8h; IRQ=3,4,5,6,7,10,11,12; IO=2F8h; IRQ=3,4,5,6,7,10,11,12; IO=3E8h; IRQ=3,4,5,6,7,10,11,12; IO=2E8h; IRQ=3,4,5,6,7,10,11,12;
Select an optimal setting for Super IO device.
Device Mode (Note1)
Standard Serial Port Mode
IrDA 1.0 (HP SIR) Mode
ASKIR Mode
Change the Serial Port mode. Select <High Speed> or <Normal mode> mode.
BIOS - Advanced
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Serial Port 4 Configuration
Note1: only if Serial Port = Enabled
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Serial Port 4 Configuration
Serial Port
Device Settings
Change Settings Device Mode
[Enabled]
IO=2E8h; IRQ=10;
[Auto] [Standard Serial Po...]
Enable or Disable Serial Port
(COM)
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Serial Port
Disabled Enabled
Enable or Disable Serial Port (COM)
Change Settings (Note1)
Auto
IO=2E8h; IRQ=10; IO=3F8h; IRQ=3,4,5,6,7,10,11,12; IO=2F8h; IRQ=3,4,5,6,7,10,11,12; IO=3E8h; IRQ=3,4,5,6,7,10,11,12; IO=2E8h; IRQ=3,4,5,6,7,10,11,12;
Select an optimal setting for Super IO device.
Device Mode (Note1)
Standard Serial Port Mode
IrDA 1.0 (HP SIR) Mode ASKIR Mode
Change the Serial Port mode. Select <High Speed> or <Normal mode> mode.
BIOS - Advanced
Page 89
KTD-N0849-C Page 89
10.2.14 Advanced - Voltage Monitor
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Voltage Monitor
VCore
1.05
1.5
3.3
3.3SB 5 12 VBAT
: 0.968 V : 1.048 V : 1.512 V : 3.392 V : 3.392 V : 5.188 V : 12.144 V : 3.150 V
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced
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10.2.15 Advanced - Hardware Health Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Hardware Health Configuration
System Temperature System Temperature Ext CPU Temperature
System Fan Speed
System Temperature Ext Type
Fan Cruise Control
Fan Settings Fan Min limit Fan Max limit
CPU Fan Speed
Fan Cruise Control
Fan Settings Fan Min limit Fan Max limit
Watchdog Function
PC Speaker/Beep
: 30ºC/86ºF : 24ºC/75ºF : 49.10ºC/120ºF
: 1543 RPM
[ OneWire @ GPIO16]
[Thermal] 35 0 100
: 1374 RPM
[Thermal] 50 0 100
0
[Enabled]
Disabled = Full speed.
Thermal: does regulate fan speed according to specified temperature.
Speed: does regulate according to specified RPM.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced
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KTD-N0849-C Page 91
Note1: Only visible if external temperature sensor like PN1053-4925 “Cable Temperature Sensor - 44P, 400 mm” is connected.
Note2: Only visible if external temperature sensor is connected and if System Temperature Ext Type is not Disabled.
Note3: ºC (if Fan Cruise Control = Thermal) use either digit keys to enter value or +/- keys to increase/decrease value. Don’t use mix of digit keys and +/- keys.
Note4: RPM (if Fan Cruise Control = Speed) use either digit keys to enter value or +/- keys to increase/decrease value by 100. Don’t use mix of digit keys and +/- keys.
Note5: Only visible if external temperature sensor is connected and if System Fan Cruise Control is Thermal.
Note6: Use number keys to enter value.
Note7: Only visible if CPU Fan Cruise Control is Thermal.
Note8: Seconds, use digit keys to enter value. Value 0 means Watchdog is disabled. Refer to “KT-API­V2 User Manual” to control the Watchdog via API or refer to “KT-API-V2 User Manual DLL” how to control Watchdog via Windows DLL.
Function
Selection
Description
System Temperature Ext Type
(note1)
Disabled
LM75 @ 0x90 OneWire @ GPIO16
Use external connected sensor instead of onboard.
Fan Cruise Control (System Fan)
Disabled
Thermal (note2) Speed
Disabled = Full speed. Thermal: Regulate according to specified ºC. Speed: Regulate according to specified RPM.
Fan Settings (System Fan)
30 – 90 (note2,note3) 1000 – 9999 (note4)
Specify limit temperature in ºC or limit RPM (depending on Thermal or Speed selection)
Fan Min limit (System Fan) (note5) 0 (note6)
Minimum PWM %, can be used to make sure fan is always active. Make sure Min limit < Max limit.
Fan Max limit (System Fan) (note5)
100
(note6)
Maximum PWM %, can be used to limit the fan noise. Make sure Min limit < Max limit.
Fan Cruise Control (CPU Fan)
Disabled
Thermal Speed
Disabled = Full speed. Thermal: Regulate according to specified ºC. Speed: Regulate according to specified RPM.
Fan Settings (CPU Fan)
30 – 90 (note3) 1000 – 9999 (note4)
Specify limit temperature in ºC or limit RPM (depending on Thermal or Speed selection)
Fan Min limit (CPU Fan) (note7) 0 (note6)
Minimum PWM %, can be used to make sure
fan is always active. Make sure Min limit < Max
limit.
Fan Max limit (CPU Fan) (note7)
100
(note6)
Maximum PWM %, can be used to limit the fan
noise. Make sure Min limit < Max limit.
Watchdog Function 0 - 255 (note8)
0 = Disabled. Enter the service interval in seconds before
system will reset. Refer to manual how to reload the timer.
PC Speaker/Beep
Disabled
Enabled
Control the default beeps during boot of the system. This setting will also control the beep during enumeration and (un)plug of USB.
BIOS - Advanced
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KTD-N0849-C Page 92
10.2.16 Advanced - LAN Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
LAN Configuration System UUID {f4af2da3-b59d-58a9-466cb11a02b0486f}
Control of Ethernet Devices and PXE boot. To disable ETH1, ME
Subsystem must be as well.
ETH1 Configuration (Left)
Wake on LAN MAC Address & Link status: ETH2 Configuration (Upper) MAC Address & Link status: ETH3 Configuration (Lower) MAC Address & Link status:
Network Stack
[Enabled]
[Enabled]
00E0F4288EA3+
[Enabled]
00E0F4288EA4-
[Enabled]
N/A
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
ETH1 Configuration (Left)
Disabled
Enabled
With PXE boot
Control of Ethernet Devices and PXE boot. To disable ETH1, ME Subsystem must be as well.
Wake on LAN
Enabled Disabled
Enable or disable integrated LAN to wake the system. (The Wake On LAN cannot be disabled if ME is on at Sx state.)
ETH2 Configuration (Upper) (right)
Disabled
Enabled
With PXE boot
Control of Ethernet Devices and PXE boot. To disable ETH2, ME Subsystem must be as well.
ETH3 Configuration (Lower)
Disabled
Enabled
With PXE boot
ETH3 is not available on the KTQM67/Flex­Medical. This setting has no effect.
BIOS - Advanced
Page 93
KTD-N0849-C Page 93
Network Stack
Note1: Only if Network stack = Enabled.
Note2: To enter number use digit keys and/or +/- keys.
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Network stack
Ipv4 PXE Support Ipv6 PXE Support Ipv6 Delay Time
[Enable]
[Enable] [Enable] 0
Enable/Disable UEFI network
stack.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function Selection Description
Network stack
Disable Link
Enabled
Enable/Disable UEFI network stack.
Ipv4 PXE Support (Note1)
Enabled Disabled
Enable Ipv4 PXE Boot Support. If disabled IPV4 PXE boot option will not be created.
Ipv6 PXE Support (Note1)
Enabled Disabled
Enable Ipv6 PXE Boot Support. If disabled IPV6 PXE boot option will not be created.
IPv6 Delay Time (Note1)
0 – 15 (Note2)
Set Seconds of Delay Before IPv6 PXE Boot. Default 0 Seconds.
BIOS - Advanced
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KTD-N0849-C Page 94
10.2.17 Advanced - Delay Startup
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Delay startup
Delay Startup
0
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Note1: To enter number use digit keys and/or +/- keys.
The delay initiates if the value is different from 0, starts at the earliest possible point of the BIOS boot. For some add-on devices the BIOS boot is too fast for proper detection. In other words, the setting is meant as a possible fix to Add-on device detection problems.
Function Selection Description
Delay Startup
0 – 9999 Note1)
Delay startup value is in ms.
BIOS - Advanced
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KTD-N0849-C Page 95
10.2.18 Advanced - Serial Port Console Redirection
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
COM0
Console Redirection
Console Redirection Settings
COM1 Console Redirection
Console Redirection Settings
COM2 Console Redirection
Console Redirection Settings
COM3 Console Redirection
Console Redirection Settings
[Disabled]
[Disabled]
[Disabled]
[Disabled]
Console Redirection Enable or
Disable.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
COM4(Pci Bus0,Dev0,Func0) (Disabled) Console Redirection Port Is Disabled
Serial Port for Out-of-Band Management/
Windows Emergency Management Services (EMS)
Console Redirection
Console Redirection Settings
[Disabled]
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced
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KTD-N0849-C Page 96
Console Redirection Settings
The “Console Redirection Settings” Menus are only available if related “Console Redirection” is Enabled. A different menu is available for Serial Port for Out-of-Band Management, see next page.
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
COM0
Console Redirection Settings
Terminal Type
Bits per second Data Bits Parity Stop Bits Flow Control VT-UTF8 Combo Key Support Recorder Mode Resolution 100x31 Legacy OS Redirection Resolution Putty Keypad Redirection After BIOS POST
[ANSI]
[115200] [8] [None] [1] [None] [Enabled] [Disabled] [Disabled] [80x24] [VT100] [Always Enable]
Emulation: ANSI: Extended
ASCII char set. VT100: ASCII char set. VT100+: Extends VT100 to support color, function keys, etc. VT-UTF8: Uses UTF8 encoding to map Unicode chars onto 1 or more bytes.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Advanced
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KTD-N0849-C Page 97
Function Selection Description
Terminal Type
VT100 VT100+ VT-UTF8
ANSI
Emulation: ANSI: Extended ASCII char set. VT100: ASCII char set. VT100+: Extends VT100 to support color, function keys, etc. VT­UTF8: Uses UTF8 encoding to map Unicode chars onto 1 or more bytes.
Bits per second
9600 19200 38400 57600
115200
Select serial port transmission speed. The speed must be matched on the other side. Long or noisy lines may require lower speeds.
Data Bits
7, 8
Data Bits
Parity
None
Even Odd Mark Space
A parity bit can be sent with the data bits to detect some transmission errors.
Even: parity bit is 0 if the num of 1’s in the data bits is even.
Odd: parity bit is 0 if the num of 1’s in the data bits is odd.
Mark: parity bit is always 1. Space: parity bit is always 0. Mark/Space do not allow error detection.
Stop Bits
1
2
Stop bits indicate the end of a serial data packet. (A start bit indicates the beginning).
The standard setting is 1 stop bit. Communication with slow devices may require more than 1 stop bit.
Flow Control
None
Hardware RTS/CTS
Flow control can prevent data loss from buffer overflow. When sending data, if the receiving buffers are full, a ´stop´ signal can be sent to stop the data flow. Once the buffers are empty, a ´start ‘signal can be sent to re-start the flow. Hardware flow control uses two wires to send start/stop signals.
VT-UTF8 Combo Key Support
Disabled
Enabled
Enable VT-UTF8 Combination Key Support for ANSI/VT100 terminals.
Recorder Mode
Disabled
Enabled
On this mode enabled only text will be send. This is to capture Terminal data.
Resolution 100x31
Disabled
Enabled
Enables or disables extended terminal resolution.
Legacy OS Redirection Resolution
80x24
80x25
On Legacy OS, the Number of Rows and Columns supported redirection.
Putty Keypad
VT100
LINUX XTERMR6 SCO ESCN VT400
Select FunctionKey and KeyPad on Putty.
Redirection After BIOS POST
Always Enable
BootLoader
The settings specify if BootLoader is selected than Legacy console redirection is disabled before booting to Legacy OS. Default value is Always Enable which means Legacy console Redirection is enabled for Legacy OS.
BIOS - Advanced
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KTD-N0849-C Page 98
When “Serial Port for Out-of-Band Management/Windows Emergency Management Services (EMS)” > “Console Redirection” is enabled:
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
Out-of-Band Mgmt Port
Terminal Type Bits per second Flow Control
Data Bits Parity Stop Bits
[COM0]
[VT-UTF8] [115200] [None]
8 None 1
Microsoft Windows Emergency
Management Services (EMS) allows for remote management of a Windows Server OS through a serial port.
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Function
Selection
Description
Out-of-Band Mgmt Port
COM0
COM1 COM2 COM3 COM4
Microsoft Windows Emergency Management Services (EMS) allows for remote management of a Windows Server OS through a serial port.
Terminal Type
VT100 VT100+
VT-UTF8
ANSI
VT-UTF8 is the preferred terminal type for out­of-band management. The next best choice is VT100+ and then VT100. See above, in Console Redirection Settings page, for more Help with Terminal Type/Emulation.
Bits per second
9600 19200 57600
115200
Select serial port transmission speed. The speed must be matched on the other side. Long or noisy lines may require lower speeds.
Flow Control
None
Hardware RTS/CTS Software Xon/Xoff
Flow control can prevent data loss from buffer overflow. When sending data, if the receiving buffers are full, a ´stop´ signal can be sent to stop the data flow. Once the buffers are empty, a ´start ‘signal can be sent to re-start the flow. Hardware flow control uses two wires to send start/stop signals.
BIOS - Advanced
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KTD-N0849-C Page 99
10.2.19 Advanced - CPU PPM Configuration
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Advanced
CPU PPM Configuration
EIST
Turbo Mode CPU C3 Report CPU C6 Report CPU C7 Report
[Enabled]
[Enabled] [Enabled] [Enabled] [Enabled]
Enable/Disable Intel SpeedStep
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
Note1: Not present if CPU do not support Turbo Mode.
Function Selection Description
EIST
Disabled
Enabled
Enable/Disable Intel SpeedStep.
Turbo Mode (Note1)
Disabled Enabled
Turbo Mode
CPU C3 Report
Disabled Enabled
Enable/Disable CPU C3 (ACPI C2) report to OS
CPU C6 Report
Disabled
Enabled
Enable/Disable CPU C6 (ACPI C3) report to OS
CPU C7 Report
Disabled
Enabled
Enable/Disable CPU C7 (ACPI C3) report to OS
BIOS - Advanced
Page 100
KTD-N0849-C Page 100
10.3 Chipset
Aptio Setup Utility – Copyright © 2012 American Megatrends, Inc.
Main
Advanced
Chipset
Boot
Security
Save & Exit
PCH-IO Configuration
System Agent (SA) Configuration
PCH Parameters
→← : Select Screen
↑↓ : Select Item
Enter: Select +/- : Change Opt. F1: General Help F2: Previous Values F3: Optimized Defaults F4: Save & Exit ESC: Exit
Version 2.15.1236. Copyright © 2012 American Megatrends, Inc
BIOS - Chipset
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