Page 1
The pulse of innovation
KTH81/mITX
KTQ87/Flex
KTH81/Flex
KTQ87/mITX
KTD-N0882-I
Page 2
KTD-N0882-I Page 2 Table of Contents
KTQ87/KTH81 Users Guide
» Table of Contents «
1 Introduction ........................................................................................... 9
2 Installation Procedure ............................................................................ 10
2.1 Installing the Board ............................................................................................................... 10
2.2 Requirements IEC60950 .......................................................................................................... 11
3 System Specifications ............................................................................. 12
3.1 Component main data ............................................................................................................. 12
3.2 System overview .................................................................................................................... 16
3.3 Processor Support Table .......................................................................................................... 17
3.4 System Memory support .......................................................................................................... 19
3.5 KTQ87/KTH81 Graphics Subsystem ............................................................................................. 20
Intel® HD Graphics 4600 ........................................................................................................................... 20
Display Configurations: ............................................................................................................................. 21
Graphics Adapters .................................................................................................................................... 21
3.6 Power Consumption ................................................................................................................ 22
mITX, Total System power example ............................................................................................................... 23
Flex, Total System power example ................................................................................................................ 26
4 Connector Locations ............................................................................... 30
4.1 KTQ87/mITX (KTH81/mITX) - frontside ....................................................................................... 30
4.2 KTQ87/Flex (KTH81/Flex) - frontside .......................................................................................... 31
5 Connector Definition .............................................................................. 32
6 IO-Area Connectors ................................................................................ 33
6.1 DP Connectors (DP0, DP1, DP2) ................................................................................................. 33
6.2 Ethernet Connectors ............................................................................................................... 34
6.3 USB Connectors (IO Area) ........................................................................................................ 35
USB Connector 0/1 (USB0/1) ..................................................................................................................... 36
USB Connector 2/3 (USB2/3) ..................................................................................................................... 37
6.4 Audio Jack Connector Stack (Audio) ........................................................................................... 38
7 Internal Connectors ................................................................................ 39
7.1 Power Connector (ATX24P) ....................................................................................................... 39
7.2 Power Connector (ATX4p) ........................................................................................................ 39
7.3 Fan Connectors (CPU_Fan, SYS_Fan1, SYS_Fan2) .......................................................................... 40
7.4 PS/2 Keyboard and Mouse connector (KBD/MSE) (PS2) .................................................................. 41
7.5 LVDS Flat Panel Connector (LVDS) .............................................................................................. 42
7.6 SATA (Serial ATA) Disk interface ................................................................................................ 43
7.7 USB Connectors (USB) ............................................................................................................ 44
USB 4 & 5 (USB4/5) (USB1) ....................................................................................................................... 45
USB 6 & 7 (USB6/7) (USB2) ....................................................................................................................... 45
Page 3
KTD-N0882-I Page 3 Table of Contents
KTQ87/KTH81 Users Guide
USB 8 & 9 (USB8/9) (USB3) ....................................................................................................................... 45
7.8 Serial COM1 – COM2 Ports (COM1, COM2) ..................................................................................... 46
7.9 Audio Connectors .................................................................................................................. 47
Headphone and Mic2 ................................................................................................................................. 47
Front Speakers (LINEOUT) .......................................................................................................................... 47
SPDIF (SP-DIF) ......................................................................................................................................... 47
7.10 Front Panel Connector (FRONTPNL) (J2) ...................................................................................... 48
7.11 Feature Connector (Feature) (J1) .............................................................................................. 49
7.12 “Load Default BIOS Settings” (Load default) (CMOS) ...................................................................... 51
7.13 “Always On” (Always On) (A_ON) ............................................................................................... 52
7.14 SPI Connector (SPI_HEAD) ....................................................................................................... 53
7.15 LPC Connector (J30) ............................................................................................................... 53
7.16 XDP_CPU (Debug Port for CPU) (XDP_CPU) ................................................................................... 54
7.17 XDP_PCH (Debug Port for Chipset) (XDP_PCH) .............................................................................. 55
8 Slot Connectors (PCIe, mPCIe, mSATA, PCI) ................................................. 56
8.1 PCIe Connectors .................................................................................................................... 56
PCI-Express x16 Connector (PCIex16) (SLOT1_16X) ......................................................................................... 56
PCI-Express x2 Connector (PCIex2) in x16 slot (PCIE2) ..................................................................................... 58
PCI-Express x1 Connector (PCIex1) (PCIE3) ................................................................................................... 59
miniPCI-Express mPCIe (MPCIE)................................................................................................................... 60
8.2 mSATA (MSATA) ..................................................................................................................... 61
8.3 PCI Slot Connector ................................................................................................................. 62
Signal Description – PCI Slot Connector ........................................................................................................ 63
KTQ81/Flex & KTH81/Flex PCI IRQ & INT routing ............................................................................................. 64
9 On-board - & mating connector types ......................................................... 65
10 BIOS .................................................................................................... 66
10.1 Main ................................................................................................................................... 66
System Information .................................................................................................................................. 67
Boot Features .......................................................................................................................................... 68
Error Manager .......................................................................................................................................... 69
10.2 Advanced ............................................................................................................................. 70
Silicon Information ................................................................................................................................... 71
Processor Configuration ............................................................................................................................. 72
HDD Configuration .................................................................................................................................... 73
System Agent (SA) Configuration................................................................................................................. 74
South Bridge Configuration ........................................................................................................................ 79
LAN Configuration .................................................................................................................................... 84
PCI bridge Configuration ............................................................................................................................ 85
Hardware Health Configuration ................................................................................................................... 87
SMBIOS Event Log .................................................................................................................................... 89
AMT Configuration .................................................................................................................................... 90
ME Configuration ...................................................................................................................................... 93
Intel ® Rapid Start Technology ................................................................................................................... 94
10.3 Security ............................................................................................................................... 95
Page 4
KTD-N0882-I Page 4 Table of Contents
KTQ87/KTH81 Users Guide
TPM Configuration .................................................................................................................................... 96
10.4 Boot ................................................................................................................................... 97
10.5 Exit ..................................................................................................................................... 98
Page 5
KTD-N0882-I Page 5 Document Details
KTQ87/KTH81 Users Guide
Document Revision History
Revision
Date
By
Comment
I March 5th 2015 MLA I7-4790S, I5-4590S added. EXT_BAT max. 3.47 V.
Always On jumper
description corrected.
H July 16th 2014 MLA
Top text correction. Improved cooler information. Feature connector
corrections. BIOS part upgraded.
G May 27th 2014 MLA Display configuration table improved. BIOS part added.
F Feb. 26th 2014 MLA
Mating connector list updated. Pentium data added. Added KTH81/Flex and
KTQ87/Flex. Updated document layout.
E Sep. 23rd 2013
JS
MLA
CPU table updated, Graphics data, FAN3 & 4 not supported. Audio Connector
description correction. KTH81 included. Connector list updated.
D July 3rd 2013 JS Audio section update, page 30. CPU table updated. Picture update.
C May 24th 2013 JS Entire document revised
B May 24th 2013 JS Section 2.5 revised
A May 15th 2013 JS Feature port revised (FAN3/4 not supported)
0 April 14th 2013 JS Preliminary version
Page 6
KTD-N0882-I Page 6 Document Details
KTQ87/KTH81 Users Guide
Copyright Notice
Copyright 2013, 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.
Page 7
KTD-N0882-I Page 7 Document Details
KTQ87/KTH81 Users Guide
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.
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.
Page 8
KTD-N0882-I Page 8 Document Details
KTQ87/KTH81 Users Guide
KONTRON Technology Technical Support and Services
If you have questions about installing or using your KONTRON Technology Product, then please notice that
you will find many answers in this Users Guide. 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. DRAM Type and Size.
2. BIOS Revision (find the version info in the BIOS Setup).
3. 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.
If the Kontron Technology product seems to be defect and you want to return it for repair, please follow the
guide lines from the following page:
http://kontron.com/services/rma-information/kontron-technology-a-s/
Page 9
KTD-N0882-I Page 9 Introduction
KTQ87/KTH81 Users Guide
1 Introduction
This manual describes the KTH81/mITX, KTQ87/mITX, KTH81/Flex & KTQ87/Flex boards made by KONTRON
Technology A/S. The boards will also be denoted KTQ87 & KTH81.
The KTQ87/KTH81 boards are based on the Q87/H81 chipsets supporting 4
rd
generation Intel® Haswell i7 -,
i5 2Core and 4Core desktop processors, Haswell Dual Core Pentium and Haswell Dual Core Celeron. See
“Processor Support Table” for more specific details.
The differences between the four types of boards are listed in this table:
Feature KTH81/mITX KTQ87/mITX KTH81/Flex KTQ87/Flex
Form factor mITX mITX Flex ATX Flex ATX
PCIex16 Gen2 Gen3 Gen2 Gen3
Vpro - Depends on CPU - Depends on CPU
AMT - Yes - Yes
RAID - Yes - Yes
DP 2x (DP0, DP1) 3x (DP0, DP1,DP2) 2x (DP0, DP1) 3x (DP0, DP1,DP2)
LVDS - - Yes (=> no DP1) Yes (=> no DP1)
USB
2x USB3.0/2.0
8x USB2.0
4x USB3.0/2.0
6x USB2.0
2x USB3.0/2.0
8x USB2.0
4x USB3.0/2.0
8x USB2.0
LPC - - 2x10 pin row 2x10 pin row
DIMM slots 2x 2x 2x 4x
PCIe slots
PCIex16, Gen2.
mPCIe (w. USB)
PCIex16, Gen3
mPCIe (w. USB)
PCIex16, Gen2
PCIex2 (x16 slot)
+ PCIex1
PCIex16, Gen3
PCIex4 (x16 slot)
+ PCIex1
mSATA 1x (w. USB, LPC) 1x (w. USB,LPC) - -
SATA
1x Gen3
2x Gen2
5x, Gen3
2x Gen3
2x Gen2
6x, Gen3
PCI Slot - - 1x 1x
Kbd/Mse - - 6-pin row 6-pin row
Fan connectors CPU, Sys CPU, Sys CPU, Sys1, Sys2 CPU, Sys1, Sys2
Use of this Users Guide implies a basic knowledge of PC-AT hard- and software. This manual is focused on
describing the KTQ87 / KTH81 board’s special features and is not intended to be a standard PC-AT textbook.
New users are recommended to study the short installation procedure stated in 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 exceptions are the “Clear CMOS” Jumper and the “Always On” jumper.
Latest revision of this manual, datasheet, BIOS, drivers, BSP’s (Board Support Packages), Mechanical
drawings (2D and 3D) can be downloaded from here: http://www.kontron.com/products/boards-and-
mezzanines/embedded-motherboards/
Page 10
KTD-N0882-H Page 10 Installation
KTQ87/KTH81 Users Guide
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
(RAM, LAN cards etc.) might get damaged. Make sure only to use standard ATX PSU. Running the
board with non-compliant ATX PSU may damage the board within minutes.
!
2 Installation Procedure
2.1 Installing the Board
To get the board running follow these steps. If the board shipped from KONTRON has already components
like RAM and CPU cooler mounted, then relevant steps below can be skipped.
1. Turn off the PSU (Power Supply Unit)
2. Insert the DDR3 DIMM 240pin DIMM module(s)
Be careful to push it in the slot(s) before locking the tabs. For a list of approved DDR3 DIMMs 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
Make sure the heat paste etc. on the cooler is intact and cover the full area of the CPU. Connect Cooler
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 change
BIOS settings.
6. Connect and turn on PSU
Connect PSU to the board by the ATXPWR (24pole power plug) and the ATX4p (4-pole power plug).
7. Power Button
If the board does not start by itself when switching on the ATX PSU AC mains, then follow these
instructions to start the board. Install the Always On Jumper in the Always On position or toggle the
PWRBTN_IN# signal (available in the FRONTPNL connector), by momentary shorting pins 16
(PWRBTN_IN#) and pin 18 (GND). A “normally open” switch is recommended.
8. BIOS Setup
Enter the BIOS setup by pressing the <F2> key during boot up.
Enter “Exit Menu” and Load Setup Defaults.
Refer to the “BIOS Configuration / Setup“ section of this manual for details on BIOS setup.
Note: To clear all BIOS settings, including Password protection, activate “Load Default BIOS Settings”
Jumper for ⋲10 sec (without power connected).
Page 11
KTD-N0882-H Page 11 Installation
KTQ87/KTH81 Users Guide
!
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.
9. Mounting the board in chassis
When fixing the Motherboard on a chassis it is recommended using screws with integrated washer and a
diameter of ⋲7mm. Do not use washers with teeth, as they can damage the PCB and cause short circuits.
2.2 Requirements IEC60950
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 re- placed.
Replace only with same or equivalent type recommended
by manufacturer. Dispose of used batteries according to
the manufacturer’s instruc- tions.
VORSICHT!
Explosionsgefahr bei unsachgemäßem Austausch der
Batterie. Ersatz nur durch den selben oder einen vom
Hersteller empfohlenen gleichwertigen Typ.
Entsorgung gebrauchter Batterien nach Anga- ben des
Herstellers.
ATTENTION!
Risque d'explosion avec l'échange inadéquat de la
batterie. Remplacement seulement par le même ou un
type équivalent recommandé par le producteur.
L'évacuation des batteries usagées conformément à des
indications du fabricant.
PRECAUCION!
Peligro de explosión si la batería se sustituye
incorrectamente. Sustituya solamente por el mismo o
tipo equivalente recomendado por el fabricante.
Disponga las baterías usadas según las instrucciones
del fabricante.
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. B
rukte 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 lalteval- mistajan
suosittelemaan tyyppiln. Hävitä käytetty paristo
valmistajan ohjeiden mukaisesti.
When an interface or 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 ensure:
• Wires have suitable rating to withstand the maximum available power.
• That the enclosure of the peripheral device fulfils the fire protecting requirements of IEC60950.
Page 12
KTD-N0882-I Page 12 System Specification
KTQ87/KTH81 Users Guide
3 System Specifications
3.1 Component main data
The table below summarizes the features of the KTH81/mITX, KTQ87/mITX, KTH81/Flex and KTQ87/Flex.
Form factor
mITX (miniITX) 170,18 mm by 170,18 mm
Flex (Flex-ATX) 190,5 mm by 228,6 mm
Processor
Support the following 4rd Generation Intel® Core™ (Haswell Desktop) processors via
LGA1150 H3 Socket (max 65W TDP)
• Intel® Core™ i7
• Intel® Core™ i5
• Intel® Core™ i3
• Intel® Pentium
• Intel® Celeron
(4x 5 GT/s point-to-point DMI interface to PCH and 2/3/4/6/8MB internal cache).
Chipset
Intel Q87 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 9.0
• 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
• USB revision 3.0
• PCI Express revision 2.0
• ACPI 3.0b compliant
• Triple Display support (Triple Graphic Pipes)
• Blue-ray HD video playback
Intel H81 PCH (Platform Controller Hub)
• Intel ® VT-d (Virtualisation Technology for Directed I/O)
• Intel ® TXT (Trusted Execution Technology)
• Intel ® Rapid storage technology: ACHI Only
• Intel ® HD Audio Technology
• SATA (Serial ATA) 6Gb/s and 3Gb/s.
• USB revision 2.0
• USB revision 3.0
• PCI Express revision 2.0
• ACPI 3.0b compliant
• Dual Display support (Two Graphic Pipes)
• Blue-ray HD video playback
Page 13
KTD-N0882-I Page 13 System Specification
KTQ87/KTH81 Users Guide
Security
Intel® Integrated TPM 1.2 support
Memory
•
DDR3 DIMM 240pin socket (2/4 sockets on mITX/Flex)
• Support single and dual ranks DDR3 1333/1600MT/s
(PC3-10600/PC3-12800)
• Support system memory from 1x 1GB up to 2x/4x 8GB on mITX/Flex.
Notes: Less than 4GB displayed in System Properties using 32bit OS
(Shared Video Memory/PCI resources is subtracted)
• ECC not supported (PGA processors do not support ECC)
Management
Intel® Active Management Technology (Intel® AMT) 9.0 (KTQ87 only)
Audio
Audio, 7.1 Channel High Definition Audio Codec using the VIA VT1708S codec
• Line-in
• Headphone stereo signals.
• Surround output: SIDE, LFE, CEN, BACK and FRONT
• Microphone: MIC1 and MIC2
• SPDIF-Out (electrical Interface only)
• On-board speaker (Electromagnetic Sound Generator like Hycom HY-05LF)
Video
Intel ® i5 & i7 4rd Generation Desktop processors support Intel ® HD Graphics 4600.
2 or 3x digital display ports via the Intel® Haswell CPU.
• 2x DP (DisplayPorts), comply with DisplayPort 1.2 specification. (H81 only)
• 3x DP (DisplayPorts), comply with DisplayPort 1.2 specification. (Q87 only)
• HDMI panel support via DP to HDMI Adapter Converter.
• DVI panel support via DP to DVI Adapter Converter.
• VGA panel support via DP to VGA Adapter Converter.
• LVDS panel JEIDA/VESA up to 2x24 bit (Flex only)
• Triple independent pipes (Q87 only)
• Triple independent or cloned displays are supported from OS.
•
Any 3 or 2 displays via DP0, DP1, DP2 (Q87 only) or LVDS (Flex only) can be used.
(DP1 and LVDS cannot both be active at the same time).
Peripheral
interfaces
•
4x USB3.0 / USB2.0 on I/O area (Q87 only)
• 2x USB3.0 / USB2.0 plus 2x USB2.0 on I/O area (H81 only)
• 4x USB2.0 ports on internal pinrows (KTQM87/mITX, KTHM81/mITX, KTHM81/Flex)
• 6x USB2.0 ports on internal pinrows (KTQM87/Flex)
• 1x USB2.0 ports on internal mPCIe connector (mITX only)
• 1x USB2.0 ports on internal mSATA connector (mITX only)
• 2x Serial ports (RS232) on internal pinrows
• 1x SATA3.0, 2x SATA2.0 and 1x mSATA (SATA3.0, USB, LPC) (KTH81/mITX)
• 5x SATA3.0 and 1x mSATA (SATA3.0, USB, LPC) (KTQ87/mITX)
• 2x SATA3.0 and 2x SATA2.0 (KTH81/Flex)
• 6x SATA3.0 (KTQ87/Flex)
• RAID 0/1/5/10 support (Q87 only)
Page 14
KTD-N0882-I Page 14 System Specification
KTQ87/KTH81 Users Guide
LAN Support
•
1x 10/100/1000Mbits/s LAN (ETHER1):
Intel® Clarksville WGI218-LM Gigabit PHY w. AMT 9.0 (Q87 only)
Intel® Clarksville WGI218-V Gigabit PHY (H81 only)
• 1x 10/100/1000Mbits/s LAN (ETHER2) Intel® Pearsonville I211AT
• PXE Netboot supported.
• Wake On LAN (WOL) supported
I/O Control
Via ITE IT8516E Embedded Controller via LPC Bus interface
Expansion
Capabilities
•
1x PCIe x16 (Gen 2.0), 1x mPCIe (w. USB2.0) (KTH81/mITX)
• 1x PCIe x16 (Gen 2.0 & 3.0), 1x mPCIe (w. USB2.0) (KTQ87/mITX)
• 1x PCIe x16 (Gen 2.0), 1x PCIe x2 (x16 slot), 1x PCIe x1 (KTH81/Flex)
• 1x PCIe x16 (Gen 2.0 & 3.0), 1x PCIe x4 (x16 slot), 1x PCIe x1 (KTQ87/Flex)
• PCI (Flex only)
• SMBus, compatible with ACCES BUS and I2C BUS, (via Feature connector)
• SPI bus routed to SPI connector (BIOS Recovery module interface)
• DDC/AUX Bus routed to DP connector (Auto detect to DDC when using passive DP to
HDMI or DVI adapters)
• 18 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)
Hardware
Monitor
Subsystem
•
Smart Fan control system, support Thermal® and Speed® cruise for two on-board
Fan connectors: CPU Fan (on-board) and System Fan (on-board)
• Thermal inputs: CPU Die temperature (precision +/- 3ºC), System temperature
(precision +/- 3ºC)
• Intrusion (Case Open) detect input, (via Feature connector)
• Sleep S5# Indication, (via Feature connector)
• System Powergood Signal, (via Feature connector)
Power
Supply Unit
ATX/BTX (w. ATX+12V) PSU, 24-pin and 4-pin
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 6.2 years retention.
Current draw is less than 4.2µA 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.
Page 15
KTD-N0882-I Page 15 System Specification
KTQ87/KTH81 Users Guide
Environmental
Conditions
Operating:
0°C – 60°
C operating temperature (forced cooling). It is the customer’s responsibility
to provide sufficient airflow around each of the components to keep them within
allowed temperature range.
10% - 90% relative humidity (non-condensing)
Storage:
-20°C – 70°
C; 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):
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
Shock:
IAW IEC 60068-2-27, Test Ea, shock, 18 shocks 3 per axis, 6 directions.
Shock pulse 50g, 11ms halfsine.
Bump:
IAW IEC 60068-2-29, Test Eb, Bump, 3000 bumps, 500 per axis, 6 directions.
Half Sine Waveform Acceleration 2g; Pulse Duration 11ms.
Vibration:
IAW IEC 60068-2-64, Test Fh, Random Vibration. 90 min per axis, 3 axes, at 1.9 grms,
with PSD: 10-20 Hz: 0.05 g²/Hz and 20-500 Hz: -3dB/octave.
Theoretical MTBF:
599.559 / 398.053 hours @ 40°C / 50°C for the mITX boards.
464.021 / 329.037 hours @ 40°C / 50°C for the Flex boards.
Restriction of Hazardous Substances (RoHS):
All boards in the KTQ87 / KTH81 family are RoHS compliant.
Capacitor utilization:
No Tantalum capacitors on board
Only Japanese brand Solid capacitors rated for 100 °C used on board
Page 16
KTD-N0882-I Page 16 System Specification
KTQ87/KTH81 Users Guide
3.2 System overview
The block diagram below shows the architecture and main components of the KTQ87 / KTH81. The key
component on the board is the Intel
®
Q87/H81 (Lynx Point) Desktop Platform controller Hub
Intel
Processor
HASWELL
LGA1150
240 pins DDR3 UDIMM Dual Channel,
PC3 10600/12800:
2 slots, 1-16GB total.
4 slots, 1-32GB total (KTQ87/Flex).
PCIe x16 (x16slot) Graphics
LVDS / DP (DisplayPort 1.2):
2x DP (KTH81/mitx)
3x DP (KTQ87/mitx)
DP + DP or LVDS (KTH81/Flex)
2x DP + DP or LVDS (KTQ87/Flex)
Embedded
Controller
ITE8516
Intel
PCH
Lynx Point
Q87/H81
SPI BIOS Flash (64MBit)
Feature connector:
SMBus/I2C
GPIO/DAC/ADC/PWM
GPIO expansion (up to 152)
Intruder detection
Fans: CPU, System, System2 (flex)
6-pin PS/2 Keyboard/Mouse
2x COM (RS232)
TPM (Infineon)
LAN2 Intel Pearsonville
LAN1 Intel Clarkville
Audio Codec VIA VT1708S:
2x3 Audio Jack
SPDIF Out
Line-Out
Frontpanel: Line-out2 & Mic2
PCIe x2 (x16slot) (KTH81/Flex)
PCIe x4 (x16slot) (KTQ87/Flex)
PCIe x1 (Flex)
mPCIe w. & USB2.0 (mITX)
SATA
3.0
SATA
2.0
mSATA
3.0
KTH81/mITX
1x
2x
1x
KTQ87/mITX
5x - 1x
KTH81/Flex
2x
2x
-
KTQ87/Flex
6x - -
Raid 0/1/5/10 (Q87)
mSATA w. LPC Debug & USB2.0
IO area
Int.
USB
3.0/
2.0
2.0
2.0
KTH81/mITX
2x
2x
6x
KTQ87/mITX
4x - 6x
KTH81/Flex
2x
2x
6x
KTQ87/Flex
4x - 8x
Page 17
KTD-N0882-I Page 17 System Specification
KTQ87/KTH81 Users Guide
3.3 Processor Support Table
KTQ87 is designed to support the following LGA1150 Desktop processors (up to 65W power consumption):
4
rd
generation Intel® Core™ i7 processor
4
rd
generation Intel® Core™ i5 processor
Haswell™ Dual Core Pentium
Haswell™ Duel Core Celeron
In the following list you will find all CPU’s supported by the PCH in according to Intel but also other CPU’s if
successfully tested. 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
Speed
Turbo
Speed
Cores
Threads
Bus
Speed
Cache
CPU
Number
QDF/sSpec
number
Stepping
Thermal
Design
Power
[GHz]
[GHz]
[MHz]
[MB]
[ºC/W]
Core™ i7
3.2
4.0
4 8 1333/1600
8
4790S
SR1QM
C0
71/65
4th gen.
3.1
3.9
4 8 1333/1600
8
4770S
SR14H
C0
71/65
2.5
3.7
4 8 1333/1600
8
4770T
SR14N
C0
71/45
2.3
3.3
4 8 1333/1600
8
4770TE
SR183
C0
71/45
2.0
3.0
4 8 1333/1600
8
4765T
SR14Q
C0
66/35
Core™ i5
3.1 3.8 4 4 1333/1600 6 4670S SR14K C0 71/65
4th gen.
3.0
3.7
4 4 1333/1600
4
4590S
SR1QN
C0
71/65
2.9
3.6
4 4 1333/1600
4
4570S
SR14J
C0
71/65
2.8
3.3
4 4 1333/1600
6
4440S
SR14L
C0
/65
2.7
3.2
4 4 1333/1600
6
4430S
SR14M
C0
71/65
2.3
3.3
4 4 1333/1600
6
4670T
SR14P
C0
71/45
2.9
3.6
2 4 1333/1600
4
4570T
SR1CA
C0
66/35
2.7
3.3
2 4 1333/1600
4
4570TE
SR17Z
C0
66/35
Core™ i3
3.6
- 2 4
1333/1600
4
4340
SR1NL
C0
72/54
4th gen.
3.5
- 2 4
1333/1600
4
4330
SR1NM
C0
72/54
3.4 - 2 4 1333/1600 3 4130 SR1NP C0 72/54
3.1 - 2 4 1333/1600 4 4350T SR1PA C0 66/35
3.0 - 2 4 1333/1600 4 4330T SR1NK C0 66/35
2.9 - 2 4 1333/1600 3 4130T SR1NN C0 66/35
2.4 - 2 4 1333/1600 4 4330TE SR180 C0 72/35
Haswell™
3.2 - 2 2 1333/1600 3 G3420 SR1NB C0 72/54
Dual Core
2.3
- 2 2
1333/1600
3
G3320TE
SR181
C0
72/35
Pentium
Haswell™
2.7
- 2 2
1333
2
G1820
SR1CN
C0
/53
Dual Core
2.2
- 2 2
1333
2
G1820TE
SR1T6
C0
/35
Celeron
Note that ECC not supported on KTQ87 / KTH81.
Page 18
KTD-N0882-I Page 18 System Specification
KTQ87/KTH81 Users Guide
!
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.
Not all CPU even of same type support all functions ex. i7-4770S & i5-4570S supports VPRO other CPU types
may not. 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.
Note: KTH81 do not support VPRO.
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 “KTQ77 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 must be less than 60°C maximum, in order not to
overheat components near the CPU. However most CPU’s requires maximum 57,4°C, so in general, not to
violate the CPU specification the temperature of the air should be maximum ~55°C. Some of the 65W CPU’s
running full load and cooled by above cooler, might start throttling at 50°C ambient air temperature.
Page 19
KTD-N0882-I Page 19 System Specification
KTQ87/KTH81 Users Guide
3.4 System Memory support
The KTH81/mITX, KTQ87/mITX and KTH81/Flex have two DDR3 UDIMM sockets while the KTQ87/Flex has
four DDR3 UDIMM sockets. The sockets support the following memory features:
• DDR3 1.5V/1.35V UDIMM 240-pin
• Dual-channel with 1 UDIMM per channel (2 UDIMM for KTQ87/Flex)
• Single/dual rank unbuffered 1333/1600MT/s (PC3-10600/PC3-12800)
• The supported 4
rd
Generation Core i5/i7 support 1333/1600 MT/s
• From 1GB and up to 2x 8GB (4x 8GB for KTQ87/Flex).
o Note: Less than 4GB displayed in System Properties using 32bit OS
o (Shared Video Memory/PCI resources is subtracted)
• SPD timings supported
• ECC 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 167 MHz. The table below lists the resulting operating memory
frequencies based on the combination of DIMMs and processor.
DIMM Type
Module
name
Memory Data
transfers
[MT/s]
Processor system
bus frequency
[MHz]
Resulting memory
clock frequency
[MHz]
Peak
transfer rate
[MB/s]
DDR3 1333
PC3-10600
1333
1333 / 1600
167
10666
DDR3 1600
PC3-12800
1600
1333
167
10666
DDR3 1600
PC3-12800
1600
1600
200
12800
Notes: Kontron offers the following memory modules:
1GB DDR3 1333 PC3-10600, P/N: 1031-9872
2GB DDR3 1333 PC3-10600, P/N: 1054-3702
4GB DDR3 1333 PC3-10600, P/N: 1054-3703
8GB DDR3 1333 PC3-10600, P/N: 1054-3704
1GB DDR3 1600 PC3-12800, P/N: 1054-3706
2GB DDR3 1600 PC3-12800, P/N: 1054-3707
4GB DDR3 1600 PC3-12800, P/N: 1054-3708
8GB DDR3 1600 PC3-12800, P/N: 1052-5601
Memory modules have in general a much lower longevity than embedded motherboards, and therefor EOL
of modules can be expected several times during lifetime of the motherboard. Kontron guarantees that the
above P/N will be maintained so that EOL module will be replaced by other similar type of qualified module.
As a minimum it is recommend using Kontron memory modules for prototype system(s) in order to prove
stability of the system and as for reference.
For volume production you might request to test and qualify other types of RAM. In order to qualify RAM it
is recommend configuring 3 systems running RAM Stress Test program in heat chamber at 60⁰C for a
minimum of 24 hours.
Page 20
KTD-N0882-I Page 20 System Specification
KTQ87/KTH81 Users Guide
3.5 KTQ87/KTH81 Graphics Subsystem
The KTQ87 / KTH81 equipped with Intel ® i5 or i7 processor supports Intel ® HD Graphics 4600.
KTQ87/KTH81 supports three/two DisplayPort directly from processor.
The DP interface supports the DisplayPort 1.2 specification. The PCH supports High-bandwidth Digital
Content Protection for high definition content playback over digital interfaces. The PCH also integrates
audio codecs for audio support over DP interfaces.
Up to three displays (any three display outputs: DP0, DP1 & DP2 can be activated at the same time and be
used to implement independent or cloned display configuration. PCIe cards can be used to replace onboard graphics or in combination with on-board graphics.
Intel® HD Graphics 4600
Features of the Intel HD Graphics 4600 build into the i3, i5 and i7 processors, includes:
• High quality graphics engine supporting
o 3 Symmetric Pipe Support
o DirectX11.1 and OpenGL 4.x compliant and lower
o Open CL 1.2 and lower
o Core frequency of 350 - 1250 (Turbo) MHz
o Memory Bandwidth up to 25.6 GB/s
o Dynamic Video Memory Technology 5.0
o DP 1.2 MST (Multi-Stream Transport)
o PAVP
o HDCP
o Audio (Protected Content)
o Full AVC/VC1/MPEG2 HW Decode and full MVC HW Decode
• DP0, DP1 & DP2
o 16/32bit colours in WQXGA 3840x2160 @ 60 Hz.
o Max HDMI resolution 4096x2304 @ 24 Hz
o DisplayPort standard 1.2
• LVDS supports single and dual channel, 18/24bit VESA/JEIDA panels up to a resolution of
1600x1200 or 1920x1080 and with limited frame rate up to 1920x1200.
Page 21
KTD-N0882-I Page 21 System Specification
KTQ87/KTH81 Users Guide
Display Configurations:
Note the maximum resolutions:
LVDS 1920 x 1200 @ 60 Hz
HDMI 2560 x 1600 @ 60 Hz
DVI 1920 x 1200 @ 60 Hz
DP 3840 x 2160 @ 60 Hz
The HDMI and DVI limitations apply when using passive DP converter. When using Active DP converter
the limitations depends on the converter, but maximum is 3840 x 2160 @ 60 Hz.
Graphics Adapters
Use of DP Adapter Converters can provide HDMI support or second VGA or DVI panel support.
The HDMI interface supports the HDMI 1.4a specification including audio codec. However limitations to the
resolution apply: 1920x1080 (HDMI and DVI)
1051-7619 Cable DP Extender cable 200mm (when using two DP converters)
DP to VGA DP to HDMI DP to DVI-
PN 1045-5779 PN 1045-5781 PN 1045-5780
Notice that only the DP to VGA adapter is an “active” converter, the HDMI and DVI converters are passive
and cannot be used in a triple panel configuration.
MB LVDS
DP0
HDMI, DVI or DP
DP1
HDMI, DVI or DP
DP2
HDMI, DVI or DP
KTH81/mITX No Yes Yes No
KTQ87/mITX No Yes Yes Yes
KTH81/Flex
No
Yes Yes No
KTH81/Flex
Yes
Yes No No
KTQ87/Flex
No
Yes Yes Yes
KTQ87/Flex
Yes
Yes No Yes
Page 22
KTD-N0882-I Page 22 System Specification
KTQ87/KTH81 Users Guide
3.6 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. Please note, In order to keep the power consumption to a minimal level, boards do not
implement a guaranteed minimum load. In some cases, this can lead to compatibility problems with ATX
power supplies, which require a minimum load to stay in regulation. The KTQ87/mITX / KTH81/mITX board
must powered through the ATX4P (4-pole) and the ATX24P (24-pole) connector using standard ATX power
supply.
ATX12V supply: Both ATX4P connector and ATX24P connector must be used in according to the ATX12V PSU
standard.
Warning: Hot Plugging power supply is not supported. Hot plugging might damage the board.
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 +5/ -0% to meet the 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 KTQ87 boards
5VSB 4.75V 5.25V
Should be ±5% for compliance with the ATX specification
On the following pages you will find “total system power examples” for mITX and Flex boards in different
configurations:
mITX, Total System power example:
mITX, Low Power Configuration
mITX, High Power Configuration
Flex, Total System power example:
Flex, Low Power Configuration
Flex, Medium Power Configuration
Flex, High Power Configuration
Page 23
KTD-N0882-I Page 23 System Specification
KTQ87/KTH81 Users Guide
mITX, Total System power example
The principal test system and test equipment used
1. Tektronix TDS5104B
2. Tektronix TCPA300
3. Tektronix TCP312
4. Fluke 289
5. Fluke 179
6. ATX rail switch
Note: Power consumption of PSU (power loss), Monitor and HDD are not included.
Low Power Configuration Setup KTQ87/mITX:
Standard system configuration equipped with Internal graphics, 2x SATA disks, mSATA 32GB, Intel 2.0Ghz
CPU, 2x DIMM (8GB Modules), DVI Monitor, Keyboard & Mouse,1x 8GB USB Stick, 12V active cooler, 400W
ATX PSU.
High Power Configuration Setup KTQ87/mITX:
Standard system configuration equipped with PCIex16 graphics card, mSATA 32GB, 4x SATA disks, Intel
2.5Ghz CPU, 2x DIMM (8GB Modules), DVI Monitor, Keyboard & Mouse, 4x 1-8GB USB Sticks, 12V active
cooler, 400W ATX PSU.
Note: KTH81/mITX power results are similar to KTQ87/mITX.
ATX supplies
KTQ87/mITX
PSU
Gnd
Current
Probe
Tektronix TDS5104B
Page 24
KTD-N0882-I Page 24 System Specification
KTQ87/KTH81 Users Guide
mITX, Low Power Configuration results
DOS Idle, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
+12V
96
1.158
+12V P4
1359
16.390
+5V
638
3.228
+3V3
491
1.664
-12V
21
0.236
5VSB
17
0.087
Total 22.8
Windows 7, mean
3DMARK2006 ( first scene ) + Burnin Test
Supply
Current draw
[mA]
Power consumption
[W]
+12V
102
1.230
+12V P4
2420
29.185
+5V
1167
5.905
+3V3
494
1.675
-12V
22
0.247
5VSB
20
0.102
Total 38.3
S3 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
418
2.140
Total 2.1
S4 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
267
1.367
Total 1.4
S5 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
267
1.367
Total 1.4
Page 25
KTD-N0882-I Page 25 System Specification
KTQ87/KTH81 Users Guide
mITX, High Power Configuration results
DOS Idle, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
+12V
695
8.381
+12V P4
1820
21.949
+5V
902
4.564
+3V3
578
1.959
-12V
22
0.247
5VSB
20
0.102
Total 37.2
Windows 7, mean
3DMARK2006 ( first scene ) +Burnin test
Supply
Current draw
[mA]
Power consumption
[W]
+12V
3320
40.039
+12V P4
3310
39.919
+5V
1145
5.794
+3V3
1121
3.800
-12V
18
0.202
5VSB
15
0.077
Total 89.8
S3 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
429
2.196
Total 2.2
S4 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
273
1.398
Total 1.4
S5 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
269
1.377
Total 1.4
Page 26
KTD-N0882-I Page 26 System Specification
KTQ87/KTH81 Users Guide
Power lines
KTQ87/Flex ATX
PSU
Current
probe
Oscilloscope
Gnd
Flex, Total System power example
The principal test system and test equipment used
1. 12V active cooler (Delta AUC0912D)
2. USB Keyboard/Mouse (Lemel)
3. Graphic Card (HD 7750)
4. PCI Card (Intel 82557 10/100 ethernet pci adapter)
5. PCI-e Cards (TUSB7320 DEMO EVM REV C(PCIEx1 Card)
Intel® 82575EB Gigabit Network Conection (PCIEx4 Card))
6. 3.5” HDD: WD WD500AAKX-001CA0, Seagate ST500DM002 & ST9160310AS, WD WD5000AAKX-00ERMA0
7. ATX 400W Power (GPB400S)
8. Oscilloscope (Tektronix DPO 4054)
9. Current Probe (Tektronix TCP0030 Current Probe)
10. USB Flash: Transcend JetFlash 4GB, ADATA C906 8GB, TDK 8GB, Kingston DTI/1G
11. Monitors: ASUS VS209N,ViewSonic VA1912MA-LED
12. Memory: SAMSUNG M391B1G73BH0-CK0 8GB PC3-12800E-11-11-E3
13. Intel Haswell CPU: QFZQ 2.20GHz (35W), QEEG 2.30GHz (45W), QE74 2.90GHz (65W)
Note: The power consumption of Display and HDD are not included.
Low Power Configuration Setup:
KTQ87/Flex equipped with Internal graphics, 2x SATA disks, PCI card, CPU (i5) 35W, 2x DIMM PC3-10600
(2x 2GB), 1x DP Monitor, Keyboard & Mouse. 1x 1-8GB USB Stick.
Medium Power Configuration Setup:
KTQ87/Flex equipped with Internal graphics, 4x SATA disks, PCI card, PCIex4 card, CPU (i5) 45W, 4x DIMM
PC3-12800 (4x 4GB), 2x DP Monitors, Keyboard & Mouse. 2x 1-8GB USB Stick.
High Power Configuration Setup:
KTQ87/Flex equipped with PCIex16 Gen3 Graphic card, 4x SATA disks, PCI Card, PCIex1 card, PCIex4 card,
CPU (i7) 65W, 4x DIMM PC3-12800 (4x 8Gb), 2x DP Monitors, Keyboard & Mouse, 4x 1-8GB USB Sticks
Note: KTH81/Flex power results are similar to KTQ87/Flex.
Page 27
KTD-N0882-I Page 27 System Specification
KTQ87/KTH81 Users Guide
Flex, Low Power Configuration results
DOS Idle, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
+12V
91
1.092
+12V P4
970
11.640
+5V
997
4.985
+3V3
739
2.439
-12V
11
0.132
5VSB
5
0.025
Total 20.3
Windows 7, mean
3DMARK2006 ( first scene ) +Burnin test
Supply
Current draw
[mA]
Power consumption
[W]
+12V
101
1.212
+12V P4
2048
24.576
+5V
2027
10.135
+3V3
843
2.782
-12V
0
0
5VSB
8
0.040
Total 38.7
S3 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
286
1.43
Total 1.4
S4 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
130
0.715
Total 0.7
S5 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
123
0.677
Total 0.7
Page 28
KTD-N0882-I Page 28 System Specification
KTQ87/KTH81 Users Guide
Flex, Medium Power Configuration results
DOS Idle, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
+12V
154
1.848
+12V P4
1363
16.356
+5V
1083
5.415
+3V3
856
2.825
-12V
11
0.132
5VSB
8
0.040
Total 26.6
Windows 7, mean
3DMARK2006 ( first scene ) +Burnin test
Supply
Current draw
[mA]
Power consumption
[W]
+12V
0 TBD
0 TBD
+12V P4
4100 TBD
49.200 TBD
+5V
2932
14.660
+3V3
867
2.861
-12V
0
0
5VSB
17
0.085
Total 66.8
S3 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
296
1.480
Total 1.5
S4 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
139
0.695
Total 0.7
S5 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
134
0.670
Total 0.7
Page 29
KTD-N0882-I Page 29 System Specification
KTQ87/KTH81 Users Guide
Flex, High Power Configuration results
DOS Idle, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
+12V
1285
15.420
+12V P4
1781
21.372
+5V
1175
5.875
+3V3
1530
5.049
-12V
12
0.144
5VSB
4
0.020
Total 47.9
Windows 7, mean
3DMARK2006 ( first scene ) +Burnin test
Supply
Current draw
[mA]
Power consumption
[W]
+12V
2790
33.480
+12V P4
2880
34.560
+5V
1896
9.480
+3V3
1665
5.495
-12V
12
0.144
5VSB
10
0.050
Total 83.2
S3 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
296
1.480
Total 1.5
S4 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
168
0.840
Total 0.8
S5 Mode, Mean, No external load
Supply
Current draw
[mA]
Power consumption
[W]
5VSB
134
0.670
Total 0.7
Page 30
KTD-N0882-I Page 30 Connector Location
KTQ87/KTH81 Users Guide
4 Connector Locations
4.1 KTQ87/mITX (KTH81/mITX) - frontside
USB10
USB11
FRONTPNL
mPCIe
& USB8
ATX24P
Front Speakers
PCIe x16
FAN_CPU
FAN_ SYS
COM2
COM1
Audio
SPI
(KTQ87 only)
ATX4P
DP2
(KTQ87 only)
SPDIF
Always On
USB4
USB5
mSATA
& USB9
FEATURE
SATA4
SATA3
SATA2
SATA0 SATA5
Load Default
DDR3 Slot 2
DDR3 Slot 1
DP1
DP0
LAN2
USB1
USB0
LAN1
USB3
USB2
KTH81 Notes:
USB port 2 & 3 only supports USB 2.0.
SATA4 & SATA5 connectors are black colored and limited to SATA 300.
System
temp. (U97)
Page 31
KTD-N0882-I Page 31 Connector Location
KTQ87/KTH81 Users Guide
Sys_Fan1
CPU_Fan
LPC
SPI
Feature
ATX24P
COM1
COM2
SATA4 SATA0 SATA2
SATA1 SATA5 SATA3
PCI
LVDS
ATX4P
KBD/MSE
PCIex1
XDP (*)
Sys_Fan2
FRONTPNL, USB10/11
USB6/7
USB8/9
USB4/5
PCIex16
PCIex4
SPDIF
Front Speakers
Load default
Always On
DIMM4/2/3/1
Audio
DP1
DP0
DP2
(Q87 only)
LAN2
USB1
USB0
LAN1
USB3
USB2
(*) = Not Mounted.
SATA2 & SATA3 on Q87 only.
H81: SATA4 & SATA5 is SATA Gen.2
(DIMM4 & 2 only
on KTQ87/Flex)
System
temp. (U97)
4.2 KTQ87/Flex (KTH81/Flex) - frontside
Page 32
KTD-N0882-I Page 32 Connector Definition
KTQ87/KTH81 Users Guide
5 Connector Definition
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.
Page 33
KTD-N0882-I Page 33 IO-Area Connectors
KTQ87/KTH81 Users Guide
6 IO-Area Connectors
6.1 DP Connectors (DP0, DP1, DP2)
The DP (DisplayPort) connectors are based on standard DP type Foxconn 3VD51203-H7JJ-7H or similar.
Note that DP2 only available on KTQ87.
19 17 15 13 11 9 7 5 3 1
20 18 16 14 12 10 8 6 4 2
Pin Signal Description Type Note
1
Lane 0 (p)
LVDS
2 GND
PWR
3
Lane 0 (n)
LVDS
4
Lane 1 (p)
LVDS
5
GND
PWR
6
Lane 1 (n)
LVDS
7 Lane 2 (p)
LVDS
8
GND
PWR
9
Lane 2 (n)
LVDS
10
Lane 3 (p)
LVDS
11
GND
PWR
12
Lane 3 (n)
LVDS
13 Config1
Aux or DDC
selection
I
Internally pull down (1Mohm).
Aux channel on pin 15/17 selected as default (when NC)
DDC channel on pin 15/17, If HDMI adapter used (3.3V)
14
Config2
(Not used)
O
Internally connected to GND
15 Aux Ch (p)
Aux Channel (+)
or DDC Clk
AUX (+) channel used by DP
DDC Clk used by HDMI
16
GND
PWR
17 Aux Ch (n)
Aux Channel (-)
or DDC Data
AUX (-) channel used by DP
DDC Data used by HDMI
18
Hot Plug
I Internally pull down (100Kohm).
19
Return
PWR
Same as GND
20
3.3V
PWR
Fused by 1.5A resetable PTC fuse.
Page 34
KTD-N0882-I Page 34 IO-Area Connectors
KTQ87/KTH81 Users Guide
6.2 Ethernet Connectors
The KTQ87/KTH81 supports two channels of 10/100/1000Mb Ethernet. First Ethernet connector (LAN1) is
based on Intel® Clarkville i218LM/i218-V Gigabit PHY. The i218-LM (Q87) has AMT 9.0 support and the
i218-V (H81) has no AMT support. Second Ethernet connector (LAN2) is based on Intel® Pearsonville
i218AT PCI Express controller.
In order to achieve the specified performance of the Ethernet port, Category 5 twisted pair cables must be
used with 10/100MB and Category 5E, 6 or 6E with 1Gb LAN networks.
The signals for the Ethernet ports are as follows:
Signal Description
MDI[0]+ / MDI[0]-
In MDI mode, this is the first pair in 1000Base-T, i.e. the BI_DA+/- pair, and is the
transmit pair in 10Base-T and 100Base-TX.
In MDI crossover mode, this pair acts as the BI_DB+/- pair, and is the receive pair
in 10Base-T and 100Base-TX.
MDI[1]+ / MDI[1]-
In MDI mode, this is the second pair in 1000Base-T, i.e. the BI_DB+/- pair, and is
the receive pair in 10Base-T and 100Base-TX.
In MDI crossover mode, this pair acts as the BI_DA+/- pair, and is the transmit pair
in 10Base-T and 100Base-TX.
MDI[2]+ / MDI[2]-
In MDI mode, this is the third pair in 1000Base-T, i.e. the BI_DC+/- pair.
In MDI crossover mode, this pair acts as the BI_DD+/- pair.
MDI[3]+ / MDI[3]-
In MDI mode, this is the fourth pair in 1000Base-T, i.e. the BI_DD+/- pair.
In MDI crossover mode, this pair acts as the BI_DC+/- pair.
Note: MDI = Media Dependent Interface.
Ethernet LAN1 is mounted together with USB Ports 2 and 3.
Ethernet LAN2 is mounted together with USB Ports 0 and 1.
The pinout of the RJ45 connectors is as follows:
Signal
PIN
Type
Ioh/Iol
Note
MDI0+
MDI0-
MDI1+
MDI2+
MDI2-
MDI1-
MDI3+
MDI3-
Flashing =>
communication
On => 1GB link
8 7 6 5 4 3 2
1
Page 35
KTD-N0882-I Page 35 IO-Area Connectors
KTQ87/KTH81 Users Guide
6.3 USB Connectors (IO Area)
The KTQ87 board contains two EHCI (Enhanced Host Controller Interface) and one XHCI (Extensible Host
Controller Interface). The two EHCI controllers, EHCI1 and EHCI2, supports up to fourteen USB 2.0 ports
allowing data transfers up to 480Mb/s. The XHCI controller supports six USB 3.0 ports allowing data
transfers up to 5Gb/s. The six USB 3.0 ports are shared with four of the USB 2.0 ports (USB0 – USB3) from
the EHCI1.
Note: Not all USB 2.0 and USB 3.0 ports are physically connected to the board.
The KTQ87/mITX has total of 10 USB ports where four ports support USB 3.0 or USB 2.0 via Rear IO
connectors. The KTH81/mITX has total of 10 USB ports where two ports support USB 3.0 or USB 2.0 via Rear
IO connectors (USB port 2 & 3 in Rear IO only supports USB 2.0).
The KTQ87/Flex has total of 12 USB ports where four ports support USB 3.0 or USB 2.0 via Rear IO
connectors. The KTH81/mITX has total of 10 USB ports where two ports support USB 3.0 or USB 2.0 via Rear
IO connectors (USB port 2 & 3 in Rear IO only supports USB 2.0).
Legacy Keyboard/Mouse and wakeup from sleep states are supported. Over-current detection on all USB
ports is supported. The following USB connectors are available in the IO Area.
USB Port 0 and 1 (via EHCI1/XHCI) are supplied on the combined USB0, USB1 and LAN2 connector.
USB Port 2 and 3 (via EHCI1/XHCI) are supplied on the combined USB2, USB3 and LAN1 connector.
For USB2.0 cabling it is required to use only HiSpeed USB cable, specified in USB2.0 standard:
For USB3.0 cabling it is required to use only HiSpeed USB cable, specified in USB3.0 standard:
Page 36
KTD-N0882-I Page 36 IO-Area Connectors
KTQ87/KTH81 Users Guide
USB Connector 0/1 (USB0/1)
USB Ports 0 and 1 are mounted together with LAN2 port and supports USB3.0/USB2.0.
Note
Type
Signal
PIN
Signal
Type
Note
IO
USB1-
USB1+
IO
1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
RX1-
5 6 7 8 9
TX1+
IO
IO
RX1+
TX1-
IO
PWR
GND
IO
USB0-
USB0+
IO
1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
RX0-
5 6 7 8 9
TX0+
IO
IO
RX0+
TX0-
IO
PWR
GND
Note 1: In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.
Signal Description
USBn+ USBn-
RXn+ RXn-
TXn+ TXn-
(n= 0,1)
Differential pair works as serial differential receive/transmit data lines.
5V/SB5V
5V supply for external devices. SB5V is supplied during power-down to allow wakeup
on USB device activity. Protected by resettable 2A fuse covering both USB ports.
Page 37
KTD-N0882-I Page 37 IO-Area Connectors
KTQ87/KTH81 Users Guide
USB Connector 2/3 (USB2/3)
USB Ports 2 and 3 are mounted together with LAN1 port and supports USB3.0/USB2.0.
Note
Type
Signal
PIN
Signal
Type
Note
IO
USB3-
USB3+
IO
1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
RX3-
5 6 7 8 9
TX3+
IO
IO
RX3+
TX3-
IO
PWR
GND
IO
USB2-
USB2+
IO
1
PWR
5V/SB5V
1 2 3 4 GND
PWR
IO
RX2-
5 6 7 8 9
TX2+
IO
IO
RX2+
TX2-
IO
PWR
GND
Note 1: In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.
Signal Description
USBn+ USBn-
RXn+ RXn-
TXn+ TXn-
(n= 2,3)
Differential pair works as serial differential receive/transmit data lines.
5V/SB5V
5V supply for external devices. SB5V is supplied during power-down to allow wakeup
on USB device activity. Protected by resettable 2A fuse covering both USB ports.
Page 38
KTD-N0882-I Page 38 IO-Area Connectors
KTQ87/KTH81 Users Guide
6.4 Audio Jack Connector Stack (Audio)
The on-board Audio circuit implements up to 8 Channel High Definition Audio via stacked audiojack
connectors and via SPDIF connector, see SPDIF description.
Interface is based on UAA (Universal Audio Architecture), featuring five 24-bit stereo DACs and three 20bit stereo ADCs. Beside 8 channels audio signal the stached audiojack connectors include Line-in (left and
right) and Microphone (left and right).
Note
Type
Signal
Signal
Type
Note
OA
CEN-OUT
TIP TIP LINE1-IN-L
IA
OA
LFE-OUT
RING
RING
LINE1-IN-R
IA
PWR
GND
SLEEVE
SLEEVE GND
PWR
OA
REAR-OUT-L
TIP TIP
FRONT-OUT-L
OA
OA
REAR-OUT-R
RING
RING
FRONT-OUT-R
OA
PWR
GND
SLEEVE
SLEEVE GND
PWR
OA
SIDE-OUT-L
TIP TIP MIC1-L
IA
OA
SIDE-OUT-R
RING
RING MIC1-R
IA
PWR
GND
SLEEVE
SLEEVE GND
PWR
Signal Description Note
FRONT-OUT-L Front Speakers (Speaker Out Left). Shared w. 3-pin connector (LINEOUT)
FRONT-OUT-R Front Speakers (Speaker Out Right). Shared w. 3-pin connector (LINEOUT)
REAR-OUT-L Rear Speakers (Surround Out Left). N/A
REAR-OUT-R Rear Speakers (Surround Out Right). N/A
SIDE-OUT-L
Side speakers (Surround Out Left) N/A
SIDE-OUT-R
Side speakers (Surround Out Right) N/A
CEN-OUT
Center Speaker (Center Out channel). N/A
LFE-OUT
Subwoofer Speaker (Low Freq. Effect Out). N/A
MIC1
MIC Input 1 N/A
LINE1-IN Line in 1 signals
N/A
Port 2-channel 4-channel 6-channel 8-channel
Light Blue
Line in
Line in
Line in
Line in
Lime
Line out
Front speaker out
Front speaker out
Front speaker out
Pink
Mic in
Mic in
Mic in
Mic in
Audio header
- - -
Side speaker out
Audio header
-
Rear speaker out
Rear speaker out
Rear speaker out
Audio header
-
-
Center/ Subwoofer
Center/ Subwoofer
Page 39
KTD-N0882-I Page 39 Internal Connectors
KTQ87/KTH81 Users Guide
7 Internal Connectors
The KTQ87/KTH81 boards are 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.
Warning: Hot plugging any of the two power connectors is not allowed. Hot plugging might damage the
board. In other words, turn off main supply etc. to makesure all the power lines (+12V, 5V, SB5V, 3.3V, -5V,
-12V) are turned off when connecting to the motherboard.
Note 1: Use of both the ATX24P and the ATX4p connectors are required for operation of the KTQ87/KTH81.
7.1 Power Connector (ATX24P)
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
See chapter “Power Consumption” regarding input tolerances on 3.3V, 5V, SB5V, +12 and -12V (also refer
to ATX specification version 2.2).
7.2 Power Connector (ATX4p)
Note
Type
Signal
PIN
Signal
Type
Note
PWR
GND
2 4
+12V
PWR 1
PWR
GND
1 3
+12V
PWR
1
Signal Description
P_OK
P_OK is power good signal driven by the ATX Power Supply and indicating that the +5VDC and
+3.3VDC outputs are above the undervoltage thresholds.
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 provide 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.
Page 40
KTD-N0882-I Page 40 Internal Connectors
KTQ87/KTH81 Users Guide
7.3 Fan Connectors (CPU_Fan, SYS_Fan1, SYS_Fan2)
The SYS_FAN1 and SYS_Fan2 can be used to power, control and monitor fans for chassis ventilation etc.
The CPU_Fan is used for the connection of the FAN included in active CPU coolers.
The 4pin header is recommended to be used for driving 4-wire type Fan in order to implement FAN speed
control. 3-wire Fan support is also possible, but no fan speed control is integrated.
4-pin Mode:
3-pin Mode:
Signal Description
PWM PWM output signal for FAN speed control.
TACHO Tacho input signal from the fan, for rotation speed supervision RPM (Rotation Per Minute). The
signal shall be generated by an open collector transistor or similar. Onboard is a pull-up
resistor 4K7 to +12V. The signal has to be pulsed and onboard circuit is prepared for two pulses
per rotation.
12V +12V supply for fan. A maximum of 2000mA can be supplied from this pin.
GND Power Supply GND signal
Header
Pin
Signal
Description
Type
1
PWM
PWM output
O-3.3
2
TACHO
Tacho signal
I
3
12V
Power +12V
PWR
4
GND
Ground
PWR
Header
Pin
Signal
Description
Type
1 Not used
2 TACHO
Tacho signal
I 3 12V
Power +12V
PWR 4 GND
Ground
PWR
Page 41
KTD-N0882-I Page 41 Internal Connectors
KTQ87/KTH81 Users Guide
7.4 PS/2 Keyboard and Mouse connector (KBD/MSE) (PS2)
Attachment of a PS/2 keyboard/mouse can be done through the pinrow connector KBD/MSE (Flex boards
only). 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).
Available cable kit:
PN 1053-2384 Bracket Cable 6-Pin to PS2-Kbd-Mse
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.
Page 42
KTD-N0882-I Page 42 Internal Connectors
KTQ87/KTH81 Users Guide
7.5 LVDS Flat Panel Connector (LVDS)
The LVDS connector (Flex boards only) is based on 40 pole connector type Samtec SHF-120-01-F-D-SM-KTR or similar.
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 LVDS connector supports single and dual channel, 18/24bit SPWG panels up to a resolution of
1600x1200 or 1920x1080 and with limited frame rate up to 1920x1200.
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. 5V or 3.3V (1A Max.) selected in BIOS setup menu. Power
sequencing depends on LVDS panel selection. (Shared with eDP connector)
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, causing the LVDS transmission to fail (corrupted picture on
the display). By adding a 1Kohm resistor in series with this signal, mounted at 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.
Page 43
KTD-N0882-I Page 43 Internal Connectors
KTQ87/KTH81 Users Guide
7.6 SATA (Serial ATA) Disk interface
KTQ87 / KTH81 has integrated SATA Host controller (PCH in the Q87 / H81 chipset) which supports
independent DMA operation on 6 / 4 ports. One device can be installed on each port, via point-to-point
interface (SATA cable), for a maximum of 6 / 4 SATA devices. On the mITX the SATA ports are available as 5
/ 3 SATA connectors + 1 mSATA connector and on the Flex the SATA ports are available as 6 / 4 SATA
connectors.
All the SATA ports on the Q87 support SATA Gen3 (6.0/3.0/1.5Gb/s) are supported, while two SATA ports
on the H81 supports Gen3 and the remaining two ports support Gen2 (3.0/1.5Gb/s).
Note: Before installing OS on a SATA drive make sure the drive is not a former member of a RAID system. If
so some hidden data on the disk has to be erased. To do this, connect two SATA drives and select RAID in
BIOS. Save settings and select <Ctrl> <I> while booting to enter the RAID setup menu. Now the hidden
RAID data will be erased from the selected SATA drive.
Note: KTH81 do not support RAID.
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.
Swap bay support (not supported on mSATA)
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).
Sata connector pinning: SATA0, SATA1, SATA2, SATA3, SATA4 and SATA5. (SATA1 used by mSATA on mITX)
PIN
Signal
Type
Ioh/Iol
Note
1
GND
PWR - 2
SATA* TX+
3
SATA* TX-
4
GND
PWR -
5
SATA* RX-
6
SATA* RX+
7
GND
PWR -
Signal Description
SATA* RX+ / RX- Host transmitter differential signal pair
SATA* TX+ / TX-
Host receiver differential signal pair
“*” specifies 0, 1, 2, 3, 4, 5 depending on SATA port.
Available cable kit:
PN 821035 Cable SATA 500mm
Page 44
KTD-N0882-I Page 44 Internal Connectors
KTQ87/KTH81 Users Guide
7.7 USB Connectors (USB)
The KTQ87 board contains two EHCI (Enhanced Host Controller Interface) host controllers (EHCI1 and
EHCI2) and a XHCI (Extensible Host Controller Interface). The EHCI controllers support up to fourteen USB
2.0 ports allowing data transfers up to 480Mb/s and the XHCI controller supports up to six USB 3.0 ports
allowing data transfers up to 5Gb/s. Four of the USB 3.0 ports are shared with four of the USB 2.0 ports
(USB0 – USB3).
Note: Not all USB 2.0 and USB 3.0 ports are physically connected to the board.
Legacy Keyboard/Mouse and wakeup from sleep states are supported. Over-current detection on all
fourteen USB ports is supported.
Notes:
On KTQ87, the four USB 3.0 ports (USB0 – USB3) are shared with four of the EHCI1 USB 2.0 ports.
On KTH81, the two USB 3.0 ports (USB0 – USB1) are shared with two of the EHCI1 USB 2.0 ports.
KTH81 only supports two USB 3.0 ports.
See chapter “USB Connectors (IO Area)” for more information on USB0 – USB3.
The following USB ports are available on Internal Pinrows:
USB 4 & 5 (via EHCI1) are supplied on USB4/5 internal pinrow connector (USB1).
USB 6 & 7 (via EHCI1) are supplied on USB6/7 internal pinrow connector (USB2). (KTQ87/Flex only).
USB 8 & 9 (via EHCI2):
Flex: are supplied on the USB8/9 internal pinrow connector (USB3).
mITX: USB8 is supplied on the mPCIe slot and USB9 is supplied on mSATA slot.
USB Port 10 and 11 (via EHCI2) are supplied on the USB10/11 internal pinrow FRONTPNL connector.
Note: It is required to use only HiSpeed USB cable, specified in USB2.0 standard:
Page 45
KTD-N0882-I Page 45 Internal Connectors
KTQ87/KTH81 Users Guide
USB 4 & 5 (USB4/5) (USB1)
USB Ports 4 and 5 are supplied on the internal USB4/5 pinrow connector USB1.
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
USB 6 & 7 (USB6/7) (USB2)
USB Ports 6 and 7 are supplied on the internal USB6/7 pinrow connector USB1. (KTQ87/Flex only).
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
USB 8 & 9 (USB8/9) (USB3)
USB Ports 6 and 7 are supplied on the internal USB6/7 pinrow connector USB1. (Flex only).
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
Note1:
In order to meet the requirements of USB standard, the 5V input supply must be at least 5.00V.
Available cable kit:
PN 821401 Bracket Dual USB Cable
Signal Description
USBx+ USBx-
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. Each 5V protected by resettable 1A fuse.
Page 46
KTD-N0882-I Page 46 Internal Connectors
KTQ87/KTH81 Users Guide
7.8 Serial COM1 – COM2 Ports (COM1, COM2)
Two RS232 serial ports are available on the KTQ87/KTH81.
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 (J19), COM2 (J18)
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 COM1, COM2 5V supply is fused with common 1.5A resettable fuse.
DB9 adapter cables (PN 821016 200mm long and 821017 100mm long) are available for implementing
standard COM ports on chassis.
Available cable kit (DB9 adapter cables):
PN 821017 - 100 mm or PN 821016 - 200 mm
Page 47
KTD-N0882-I Page 47 Internal Connectors
KTQ87/KTH81 Users Guide
7.9 Audio Connectors
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.
The following Audio connectors are available as Internal connectors.
Headphone and Mic2
Headphone and Mic2 are accessible via Front Panel Connector, see Front Panel Connector description.
Front Speakers (LINEOUT)
The Front Speakers (Left and Right) interface is available through 3-pin connector. These outputs are
shared with the Speaker Audio Jack connector (green).
Up to 100 dB Signal-to-Noise Ratio (SNR).
PIN
Signal
Type
Ioh/Iol
Pull U/D
Note
1
Front Speaker-R
- -
2
GND
PWR - -
3
Front Speaker -L
- - -
SPDIF (SP-DIF)
The digital audio interface (electrical SPDIF-Out) is available through 3-pin connector and can be used to
implement 8 (7.1) Channel High Definition Audio.
Circuit is based on high fidelity 8-channel HD audio codec which is compatible with Intel HD Audio
specification and supports stereo 24-bit resolution and up to 192 kHz sample rate for DACs/ADCs.
Up to 90 dB Signal-to-Noise Ratio (SNR).
16/20/24-bit S/PDIF TX Outputs supporting 48K/96K/44.1K/88.2 KHz sample rate
PIN
Signal
Type
Ioh/Iol
Pull U/D
Note
1
5V
- -
2
SPDIF-OUT
- - 3
GND
PWR - -
Page 48
KTD-N0882-I Page 48 Internal Connectors
KTQ87/KTH81 Users Guide
7.10 Front Panel Connector (FRONTPNL) (J2)
Note
Pull
U/D
Ioh/
Iol
Type Signal PIN Signal Type
Ioh/
Iol
Pull
U/D
Note
- -
PWR
USB10/11_5V
1 2 USB10/11_5V
PWR - - - - USB10-
3 4 USB11-
- -
- - USB10+
5 6 USB11+
- -
- -
PWR
GND 7 8
GND
PWR - -
- -
NC
NC 9
10 Headphone-L
- -
- -
PWR
+5V 11
12 +5V
PWR - -
- 25/25mA
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 Headphone-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 powerdown to allow wakeup on
USB device activity. Protected by resettable 1.1A fuse covering both USB ports.
USB10+/USB10-
Universal Serial Bus Port 10 Differentials: Bus Data/Address/Command Bus.
USB11+/USB11-
Universal Serial Bus Port 11 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). 3V3 output when passive.
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.
Headphone
Headphone stereo signals (different audio stereo channel than Front Speaker signals).
MIC2
MIC2 is second stereo microphone input.
SB3V3
Standby 3.3V voltage.
AGND
Analogue Ground for Audio.
Available cable kit:
PN 821042 Cable Front Panel Open-End, 300 mm
Page 49
KTD-N0882-I Page 49 Internal Connectors
KTQ87/KTH81 Users Guide
7.11 Feature Connector (Feature) (J1)
Notes: 1. Pull-up to +3V3Dual (+3V3 or SB3V3). 2. Pull-up to on-board Battery. 3. Pull-up to +3V3. 4. Not
Available. 5. Not available on mITX, Shared with onboard FAN2 on Flex.
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 system.
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
- 3.47 V) (–
terminal connected to GND). The external battery is protected against charging
and can be used with/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.
continues
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 - -
5 - O FAN3OUT
7 8 FAN3IN
I - -
5
- -
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 -
4 -
IOT
GPIO14
27
28 GPIO15
IOT -
4 -
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 - - 4 - O FAN4OUT
39
40 FAN4IN
I - -
4
- -
PWR
GND 41
42 GND
PWR - -
- -
PWR
GND 43
44 S3# O 25/25mA
-
Page 50
KTD-N0882-I Page 50 Internal Connectors
KTQ87/KTH81 Users Guide
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
not available (used internally)
GPIO15
TMRI0/WUI2/GPC4
IS/IS/IOS
GPIO16
TMRI1/WUI3/GPC6
IS/IS/IOS
not available (used internally)
GPIO17
L80HLAT/BAO/WUI24/GPE0
O4/O4/IS/IOS
Available cable kit and Break-Out-Board:
PN 1052-5885 Cable, Feature 44pol 1 to1, 300mm
PN 820978 Feature BOB (Break-Out-Board)
Signal Description
GPIO0..17
General Purpose Inputs / Output. These Signals may be controlled or monitored through
the use of the KT-API-V2 (Application Programming Interface).
(GPIO14 and GPIO16 not
available, used internally)
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.)
Page 51
KTD-N0882-I Page 51 Internal Connectors
KTQ87/KTH81 Users Guide
mITX
Flex
Load default Jumper
(Shown in Default position)
Warning Don’t leave the jumper in position 2-3, otherwise if power is disconnected, the
battery will fully deplete within a few weeks.
7.12 “Load Default BIOS Settings” (Load default) (CMOS)
The “Load Default BIOS Settings” Jumper (J5) can be used to recover from incorrect BIOS settings. As an
example, incorrect BIOS setting which causes the attached display not to turn on can be erased by this
Jumper.
The Jumper has 3 positions: Pin 1-2, Pin2-3 (default position) and not mounted.
To Load Default BIOS Settings, inclusive erasing password and RTC:
1. Turn off power completely (no SB5V).
2. Remove the Jumper completely from CMOS1.
3. Insert jumper into position 2-3 (Clear CMOS data).
4. Wait for 10 sec.
5. Move the Jumper back to position 1-2 (default position).
6. Turn on power (use the Power On Button if required to boot).
7. Motherboard beeps number of times.
8. CMOS data lost message are shown.
9. Reboot and enter BIOS setup menu and select new settings.
Motherboard might automatically reboot a few times. Wait until booting is completed.
CMOS1
Description
pin1-2
pin2-3
X
-
Default position
-
X
Load Default BIOS Settings exclusive erasing Password
-
-
No function. Note: may load default BIOS settings after several minutes
!
Page 52
KTD-N0882-I Page 52 Internal Connectors
KTQ87/KTH81 Users Guide
mITX
Flex
Always ON Jumper
(Shown in Default position)
7.13 “Always On” (Always On) (A_ON)
The “Always On” can be used to implement hardware controlled Always ON by jumper. When “Always On” is
selected, then the board will power up automatically when power is connected.
The board can still be shut down by PWRBTN_IN# (power button in) activation (via Front Panel connector).
Always On
Description
pin1-2
pin2-3
X
-
Always On selection
-
X
Default position
-
-
No function. Note: may load default BIOS settings after several minutes
Page 53
KTD-N0882-I Page 53 Internal Connectors
KTQ87/KTH81 Users Guide
7.14 SPI Connector (SPI_HEAD)
The SPI Connector is normally not used. If however a SPI BIOS is connected via the SPI Connector then the
board will attempt to boot from it.
Note
Pull U/D
Ioh/Iol
Type
Signal
PIN
Signal
Type
Ioh/Iol
Pull U/D
Note
1 - CLK
1 2 SB3V3
PWR - -
- I CS0#
3 4 ADDIN
IO /10K
10K/
- NC
5 6 NC
- - -
10K/
IO
MOSI
7 8 ISOLATE#
IO 100K
-
IO
MISO
9
10
GND
PWR - -
1K IO
SPI_IO2_#WP
11
12
SPI_IO3_#HOLD
IO 1K
7.15 LPC Connector (J30)
The LPC connector (Flex board only) is in general unsupported. Only under special circumstances may the
LPC interface be of interest.
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
programming the
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
SPI_IO2_#WP
SPI Data I/O: A bidirectional signal used to support Dual IO Fast Read, Quad IO Fast Read
and Quad Output Fast Read modes. The signal is not used in Dual Output Fast Read mode.
SPI_IO3_#HOLD
SPI Data I/O: A bidirectional signal used to support Dual IO Fast Read, Quad IO Fast Read
and Quad Output Fast Read modes. The signal is not used in Dual Output Fast Read mode.
Note
Pull
U/D
Ioh/Iol Type Signal PIN Signal Type Ioh/Iol
Pull
U/D
Note
- -
PWR
LPC CLK
1 2 GND
- -
PWR
LPC FRAME#
3 KEY
LPC RST#
5 6 +5V
LPC AD3
7 8 LPC AD2
+3V3
9
10
LPC AD1
LPC AD0
11
12
GND
SMB_CLK
13
14
SMB_DATA
SB3V3
15
16
LPC SERIRQ
GND
17
18
CLKRUN#
SUS_STAT#
19
20
TPM_DRQ#0
Page 54
KTD-N0882-I Page 54 Internal Connectors
KTQ87/KTH81 Users Guide
7.16 XDP_CPU (Debug Port for CPU) (XDP_CPU)
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 Samtec BSH-030-01-F-D-A-TR.
Note
Pull U/D
Ioh/Iol
Type
Signal
PIN
Signal
Type
Ioh/Iol
Pull U/D
Note
PWR
GND
1 2 GND
PWR REQ
3 4 STB_0_DP
RDY
5 6 STB_0_DN
PWR
GND
7 8 GND
PWR
CFG0
9 10 CFG8
CFG1
11
12 CFG9
PWR
GND
13
14 GND
PWR
CFG2
15
16 CFG10
CFG3
17
18 CFG11
PWR
GND
19
20 GND
PWR
BPM#0
21
22 STB_1_DP
BPM#1
23
24 STB_1_DN
PWR
GND
25
26 GND
PWR CFG4
27
28 CFG12
CFG5
29
30 CFG13
PWR
GND
31
32 GND
PWR
CFG6
33
34 CFG14
CFG7
35
36 CFG15
PWR
GND
37
38 GND
PWR
PWRGD
39
40 ITP_CLKP
SW_ON_N
41
42 ITP_CLKN
PWR
CPU_VCCIO
43
44 CPU_VCCIO
PWR
PWR_DEBUG
45
46 RESET#
CPU_HOOK3
47
48 DBR#
PWR
GND
49
50 GND
PWR SMB_DAT
51
52 TDO
SMB_CLK
53
54 TRST#
NC
55
56 TDI
TCK
57
58 TMS
PWR
GND
59
60 XDP_PRESENT#
Page 55
KTD-N0882-I Page 55 Internal Connectors
KTQ87/KTH81 Users Guide
7.17 XDP_PCH (Debug Port for Chipset) (XDP_PCH)
The XDP_PCH (Intel Debug Port for Chipset) connector is not mounted and not supported. XDP_PCH
connector layout (pads) is located on the backside of PCB (below J35 connector on mITX version) and is
prepared for the Samtec BSH-030-01-F-D-A-TR.
Note
Pull U/D
Ioh/Iol
Type
Signal
PIN
Signal
Type
Ioh/Iol
Pull U/D
Note
PWR
GND
1 2 GND
PWR
NC
3 4 EC_WRST#
NC
5 6 2x4_PWR_DETECT
PWR
GND
7 8 GND
PWR
XDP_0
9 10 SATA0GP
XDP_1
11
12 SATA1GP
PWR
GND
13
14 GND
PWR XDP_2
15
16 GP36
XDP_3
17
18 GP37
PWR
GND
19
20 GND
PWR
NC
21
22 NC
NC
23
24 NC
PWR
GND
25
26 GND
PWR
XDP_4
27
28 SATA4GP
XDP_5
29
30 GP49
PWR
GND
31
32 GND
PWR
XDP_6
33
34 GPIO18
XDP_7
35
36 SMI_N
PWR
GND
37
38 GND
PWR PWRGD
39
40 JTAG_VREF
HOOK1
41
42 NC
PWR
3.3V
43
44 3.3V
PWR
NC
45
46 RESET#
NC
47
48 HOOK7
PWR
GND
49
50 GND
PWR
SMB_DAT
51
52 JTAG_TDO
SMB_CLK
53
54 JTAG_RST
NC
55
56 JTAG_TDI
JTAG_TCK
57
58 JTAG_TMS
PWR
GND
59
60 GND
PWR
Page 56
KTD-N0882-I Page 56 Slot Connectors
KTQ87/KTH81 Users Guide
8 Slot Connectors (PCIe, mPCIe, mSATA, PCI)
8.1 PCIe Connectors
The mITX boards supports one PCIex16 (16-lanes), one miniPCIe and one mSATA in mPCIe slot.
The Flex boards supports one PCIex16 (16-lanes), one PCIex2 (2-lanes) in a x16 slot and one PCIex1 slot.
The PCIex16 port can be used for external PCI Express cards inclusive graphics card. (On the Flex boards it
is located nearest the CPU). Maximum theoretical bandwidth depends on the chipset, Q87 / H81 support up
to PCIe 3.0 / PCIe 2.0, so Q87 support 8 Gbps effectively for each lane and direction, 256 Gbps in total for
16 lanes, while the H81 support 4 Gbps effectively for each lane and direction, 128 Gbps in total for 16
lanes.
The PCIex2 (in a x16 slot) (only on Flex board) can be used for external PCI Express cards inclusive graphics
card. It is located fares away from CPU. Maximum theoretical bandwidth is 4 Gbps effectively for each lane
and direction, 16 Gbps in total for 2 lanes.
The PCIex1 (only on Flex board) can be used for external PCI Express cards inclusive graphics card.
Maximum theoretical bandwidth is 4 Gbps effectively for each direction, 8 Gbps in total.
One miniPCIe (PCIe 2.0) port (mITX boards only) supporting mPCIe cards.
One miniPCIe (mSATA) port (mITX boards only) supporting mSATA cards.
miniPCIe slots are equipped with one USB 2.0 port. The USB connected to the mSATA slot do not support
WAKE function.
PCI-Express x16 Connector (PCIex16) (SLOT1_16X)
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]
Page 57
KTD-N0882-I Page 57 Slot Connectors
KTQ87/KTH81 Users Guide
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]
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
Page 58
KTD-N0882-I Page 58 Slot Connectors
KTQ87/KTH81 Users Guide
PCI-Express x2 Connector (PCIex2) in x16 slot (PCIE2)
(Flex boards only).
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]
B23
A23
GND
B24
A24
GND
GND
B25
A25
GND
B26
A26
B27
A27
GND
B28
A28
GND
GND
B29
A29
NC
B30
A30
CLKREQ
B31
A31
GND
GND
B32
A32
NC
B33
A33
NC
B34
A34
GND
GND
B35
A35
GND
B36
A36
B37
A37
GND
B38
A38
GND
GND
B39
A39
GND
B40
A40
B41
A41
GND
B42
A42
GND
GND
B43
A43
GND
B44
A44
B45
A45
GND
B46
A46
GND
GND
B47
A47
CLKREQ
B48
A48
GND
B49
A49
GND
Page 59
KTD-N0882-I Page 59 Slot Connectors
KTQ87/KTH81 Users Guide
PCI-Express x1 Connector (PCIex1) (PCIE3)
Only on Flex boards.
B50
A50
NC
B51
A51
GND
GND
B52
A52
GND
B53
A53
B54
A54
GND
B55
A55
GND
GND
B56
A56
GND
B57
A57
B58
A58
GND
B59
A59
GND
GND
B60
A60
GND
B61
A61
B62
A62
GND
B63
A63
GND
GND
B64
A64
GND
B65
A65
B66
A66
GND
B67
A67
GND
GND
B68
A68
GND
B69
A69
B70
A70
GND
B71
A71
GND
GND
B72
A72
GND
B73
A73
B74
A74
GND
B75
A75
GND
GND
B76
A76
GND
B77
A77
B78
A78
GND
B79
A79
GND
GND
B80
A80
CLKREQ
B81
A81
NC
B82
A82
GND
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 CLK
PCIE_TXP
B14
A14
PCIE CLK#
PCIE_TXN
B15
A15
GND
GND
B16
A16
PCIE_RXP
NC
B17
A17
PCIE_RXN
GND
B18
A18
GND
Page 60
KTD-N0882-I Page 60 Slot Connectors
KTQ87/KTH81 Users Guide
miniPCI-Express mPCIe (MPCIE)
(mITX boards only).
The miniPCIe port supports mPCIe and USB 2.0 cards (not mSATA).
Note 1: 10K ohm pull-up to 3V3.
Note 2: 2K2 ohm pull-up to 3V3 Dual.
Note 3: 100K ohm pull-up to 1V8 (S0 mode)
Note
Type
Signal
PIN
Signal
Type
Note
WAKE#
1
2
+3V3
PWR
NC
NC
3
4
GND
PWR
NC
NC
5
6
+1.5V
PWR 1
CLKREQ#
7
8
NC
NC
PWR
GND
9
10
NC
NC
PCIE_mini CLK#
11
12
NC
NC
PCIE_mini CLK
13
14
NC
NC
PWR
GND
15
16
NC
NC
NC
NC
17
18
GND
PWR
NC
NC
19
20
W_Disable#
2
PWR
GND
21
22
RST#
PCIE_RXN
23
24
+3V3 Dual
PWR
PCIE_RXP
25
26
GND
PWR
PWR
GND
27
28
+1.5V
PWR
PWR
GND
29
30
SMB_CLK
PCIE_TXN
31
32
SMB_DATA
PCIE_TXP
33
34
GND
PWR
PWR
GND
35
36
U_USB8N
IO
PWR
GND
37
38
U_USB8P
IO
PWR
+3V3 Dual
39
40
GND
PWR
PWR
+3V3 Dual
41
42
NC
NC
PWR
GND
43
44
NC
NC
CLK_MPCIE
45
46
NC
NC
DATA_MPCIE
47
48
+1.5V
PWR
RST_MPCIE#
49
50
GND
PWR 3
SEL_MSATA
51
52
+3V3 Dual
PWR
Page 61
KTD-N0882-I Page 61 Slot Connectors
KTQ87/KTH81 Users Guide
8.2 mSATA (MSATA)
(mITX boards only).
The mSATA port (in mPCIe express connector) supports mSATA and USB 2.0 cards (not PCIe cards).
Note 1: 10K ohm pull-up to 3V3 Dual.
Note 2: 2K2 ohm pull-up to 3V3 Dual.
Note
Type
Signal
PIN
Signal
Type
Note
WAKE#
1
2
+3V3
PWR
NC
NC
3
4
GND
PWR
NC
NC
5
6
+1.5V
PWR
1
CLKREQ#
7
8
NC
NC
PWR
GND
9
10
NC
NC
PCIE_mini CLK#
11
12
NC
NC
PCIE_mini CLK
13
14
NC
NC
PWR
GND
15
16
NC
NC
NC
NC
17
18
GND
PWR
NC
NC
19
20
W_Disable#
2
PWR
GND
21
22
RST#
PCIE_RXN
23
24
+3V3 Dual
PWR
PCIE_RXP
25
26
GND
PWR
PWR
GND
27
28
+1.5V
PWR
PWR
GND
29
30
SMB_CLK
PCIE_TXN
31
32
SMB_DATA
PCIE_TXP
33
34
GND
PWR
PWR
GND
35
36
U_USB9N
IO
NC
NC
37
38
U_USB9P
IO
NC
NC
39
40
GND
PWR
NC
NC
41
42
NC
NC
NC
NC
43
44
NC
NC
NC
NC
45
46
NC
NC
NC
NC
47
48
+1.5V
PWR
NC
NC
49
50
GND
PWR
NC
NC
51
52
+3V3
PWR
Page 62
KTD-N0882-I Page 62 Slot Connectors
KTQ87/KTH81 Users Guide
8.3 PCI Slot Connector
Flex board only.
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
Page 63
KTD-N0882-I Page 63 Slot Connectors
KTQ87/KTH81 Users Guide
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 asserte
d and read data is stable and valid when TRDY# is
asserted. Data is transferred during those clocks where both IRDY# and TRDY# are asserted.
C/BE[3::0]#
Bus Command and Byte Enables are multiplexed on the same PCI pins. During the address phase of a transaction,
C/BE[3::0]# define the bus command. During the data phase C/BE[3::0]# are used as Byte Enables. The Byte
Enables are valid for the entire data phase and determine which byte lanes carry meaningful data. C/BE[0]#
applies to byte 0 (lsb) and C/BE[3]# applies to byte 3 (msb).
PAR
Parity is even parity across AD[31::00] and C/BE[3::0]#. Parity generation is required by all PCI agents. PAR is
stable and valid one clock after the address phase. For data phases, PAR is stable and valid one clock after either
IRDY# is asserted on a write transaction or TRDY# is asserted on a read transaction. Once PAR is valid, it remains
valid until one clock after the completion of the current data phase. (PAR has the same timing as AD[31::00], but it
is delayed by one
clock.) The master drives PAR for address and write data phases; the target drives PAR for read
data phases.
INTERFACE CONTROL PINS
FRAME#
Cycle Frame is driven by the current master to indicate the beginning and duration of an access. FRAME# is
asserted to indicate a bus transaction is beginning. While FRAME# is asserted, data transfers continue. When
FRAME# is deasserted, the transaction is in the final data phase or has completed.
IRDY#
Initiator Ready indicates the initiating agent’s (bus master’s) ability to complete the current data phase of the
transaction. IRDY# is used in conjunction with TRDY#. A data phase is completed on any clock both IRDY# and
TRDY# are sampled asserted. During a write, IRDY# indicates that valid data is present on AD[31::00]. During a
read, it indicates the master is prepared to accept data. Wait cycles are inserted until both IRDY# and TRDY# are
asserted together.
TRDY#
Target Ready indicates the target agent’s (selected device’s) ability to complete the current data phase of the
transaction. TRDY# is used in conjunction with IRDY#. A data phase is completed on any clock both TRDY# and
IRDY# are sampled asserted. During a read, TRDY# indicates that valid data is present on AD[31::00]. During a
write, it indicates
the target is prepared to accept data. Wait cycles are inserted until both IRDY# and TRDY# are
asserted together.
STOP#
Stop indicates the current target is requesting the master to stop the current transaction.
LOCK#
Lock indicates an atomic operation that may require multiple transactions to complete. When LOCK# is asserted,
non-exclusive transactions may proceed to an address that is not currently locked. A grant to start a transaction on
PCI does not guarantee control of LOCK#. Control of LOCK# is obtained under its own protocol in conjunction with
GNT#. It is possible for different agents to use PCI while a single master retains ownership of LOCK#. If a device
implements Executable Memory, it should also implement LOCK# and guarantee complete access exclusion in that
memory. A target of an access that supports LOCK# must provide exclusion to a minimum of 16 bytes (aligned).
Host bridges that have system memory behind them should implement LOCK# as a target from the PCI bus point of
view and optionally as a master.
IDSEL
Initialization Device Select is used as a chip select during configuration read and write transactions.
DEVSEL#
Device Select, when actively driven, indicates the driving device has decoded its address as the target of the
current access. As an input, DEVSEL# indicates whether any device on the bus has been selected.
Page 64
KTD-N0882-I Page 64 Slot Connectors
KTQ87/KTH81 Users Guide
ARBITRATION PINS (BUS MASTERS ONLY)
REQ#
Request indicates to the arbiter that this agent desires use of the bus. This is a point to point signal. Every master
has its own REQ# which must be tri-stated while RST# is asserted.
GNT#
Grant indicates to the agent that access to the bus has been granted. This is a point to point signal. Every master
has its own GNT# which must be ignored while RST# is asserted.
While RST# is asserted, the arbiter must ignore all REQ# lines since they are tri-stated and do not contain a valid
request. The arbiter can only perform arbitration after RST# is deasserted. A master must ignore its GNT# while
RST# is asserted. REQ# and GNT# are tri-state signals due to power sequencing requirements when 3.3V or 5.0V
only add-in boards are used with add-in boards that use a universal I/O buffer.
ERROR REPORTING PINS.
The error reporting pins are required by all devices and maybe asserted when enabled
PERR#
Parity Error is only for the reporting of data parity errors during all PCI transactions except a Special Cycle. The
PERR# pin is sustained tri-
state and must be driven active by the agent receiving data two clocks following the data
when a
data parity error is detected. The minimum duration of PERR# is one clock for each data phase that a data
parity error is detected. (If sequential data phases each have a data parity error, the PERR# signal will be asserted
for more than a single clock.) PERR# must be driven high for one clock before being tri-stated as with all sustained
tri-
state signals. There are no special conditions when a data parity error may be lost or when reporting of an error
may be delayed. An agent cannot report a PERR# until
it has claimed the access by asserting DEVSEL# (for a target)
and completed a data phase or is the master of the current transaction.
SERR#
System Error is for reporting address parity errors, data parity errors on the Special Cycle command, or any other
system error where the result will be catastrophic. If an agent does not want a non-maskable interrupt (NMI) to be
generated, a different reporting mechanism is required. SERR# is pure open drain and is actively driven for a single
PCI clock by the agent reporting the error. The assertion of SERR# is synchronous to the clock and meets the setup
and hold times of all bused signals. However, the restoring of SERR# to the deasserted state is accomplished by a
weak pullup (same value as used for s/t/s) which is provided by the system designer and not by the 64signaling
agent or central resource. This pull-
up may take two to three clock periods to fully restore SERR#. The agent that
reports SERR#s to the operating system does so anytime SERR# is sampled asserted.
INTERRUPT PINS (OPTIONAL).
Interrupts on PCI are optional and defined as “level sensitive,” asserted low (negative true), using open drain output drivers. The
assertion and deassertion of INTx# is asynchronous to CLK. A device asserts its INTx# line when requesting attention from its device
driver. Once the INTx# signal is asserted, it remains asserted until the device driver clears the pending request. When the request is
cleared, the device deasserts its INTx# signal. PCI defines one interrupt line for a single function device and up to four interrupt
lines for a multi-function device or connector. For a single function device, only INTA# may be used while the other three interrupt
lines have no meaning.
INTA#
Interrupt A is used to request an interrupt.
INTB#
Interrupt B is used to request an interrupt and only has meaning on a multi-function device.
INTC#
Interrupt C is used to request an interrupt and only has meaning on a multi-function device.
INTD#
Interrupt D is used to request an interrupt and only has meaning on a multi-function device.
KTQ81/Flex & KTH81/Flex PCI IRQ & INT routing
REQ
GNT
IDSEL
INTA
INTB
INTC
INTD
REQ0
GNT0
17
INTA
INTB
INTC
INTD
Page 65
KTD-N0882-I Page 65 On-board and Mating connectors
KTQ87/KTH81 Users Guide
9 On-board - & mating connector types
The Mating connector(s) / Cable Kits(s) which are fitting the On-board connectors are listed in below table.
The highlighted cable kits are included in the “KTQ87 Cable & Driver Kit” PN 826602 / 0200000002.
(Different quantity of each cable kit included, depending on the quantity of onboard connectors).
Connector
On-board Connectors
Mating Connectors / Cables
Manufacturer
Type no.
Manufacturer
Type no.
CPU_FAN
Foxconn
HF0804E-M2
AMP
1375820-4 (4-pole)
SYS_FAN1
SYS_FAN2
Mighty 21-013-00222-1 AMP 1375820-3 (3-pole)
KBD/MSE
Molex
22-23-2061
Molex
22-01-2065
SATA
FOXCONN
LD1807V-S5BA1DH
Molex
67489-8005
WINNING
WATM-
7DBN4B2B8UW4
Kontron PN 821035 (cable)
ATX24P
CVILUX
CP-01324130
Molex
5557-24R
ATX4P
CHERNGWEEI
CR-W421S-24
Molex
39-01-2045
LVDS
Don Connex
C44-40BSBC1-G
Don Connex
A32-40-C-G-B-1
SAMTEC
SHF-120-01-F-D-
SM-K-TR
Kontron KT 910000005
Hon Kon
Technology inc
HB12-220-VFS-20 Kontron KT 821515 (cable)
Kontron
KT 821155 (cable)
COM1,2
CHERNGWEEI
CHEB254010S
Molex
90635-1103
Kontron
PN 821017 (cable)
Kontron
PN 821016 (cable)
USB4/5
FOXCONN
HC1105H-P9
Kontron
PN 821401 (cable)
USB10/11 *
(FRONTPNL)
-
Kontron
PN 821401 (cable)
LPC
PINREX
210-92-10GB04 - -
Always On
Load default
CVILUX CH11032VA00 - -
Front Speaker
SPDIF
CHERNGWEEI
P101-SGN-
060/030-03
- -
SPI
CHERNGWEEI
P201-SGN-060/030-12
-
-
FRONTPNL
PINREX
510-90-24GB03
Molex
90635-1243
Kontron
PN 821042 (cable)
FEATURE
PINREX
CH74442V100
Don Connex
A05c-44-B-G-A-1-G
Kontron
PN 1052-5885
(Cable)
* USB10/USB11 is located in FRONTPNL connector. Depending on application KT TBD cable kit can be used.
Note: In above table, more than one connector can be listed for each type of on-board connector, if they
all have same fit, form and function and are approved by Kontron as an alternative. Please notice that
standard connectors like DP, PCI, PCIe, miniPCIe, Audio Jack, Ethernet and USB are not included in the list.
Page 66
KTD-N0882-I Page 66 BIOS - Main
KTQ87/KTH81 Users Guide
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
Sub Menu available.
White text for actual selected function which can be modified.
Blue text for functions (not all can be modified).
Black background for actual selection. Black text actual settings.
Feature
Options
Description
System Date
MM/DD/YYYY
Set the system date.
System Time
HH:MM:SS
Set the system time.
The following table describes the changeable settings:
Phoenix SecureCore Technology Setup
Main
Advanced
Security
Boot
Exit
BIOS Information
BIOS Vendor
Core Version
Compliancy Version
BIOS Version
Build Date and Time
EC Firmware Version
Board Information
Product Name
PCB ID
Serial #
Boot Count
System Date
System Time
► System Information
► Boot Features
► Error Manager
Phoenix Technologies Ltd.
KTQ8718
UEFI 2.31; PI 0.9
18
Jun 30 2014 14:22:57
V1.23 12/09/13
KTQ87/Flex
08
01205252
6438
[07/07/2014]
[14:21:40]
Item Specific Help
View or set system date.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 67
KTD-N0882-I Page 67 BIOS - Main
KTQ87/KTH81 Users Guide
System Information
Phoenix SecureCore Technology Setup
Main
System Information
BIOS Version
Build Time
Processor Type
Processor Speed
System Memory Speed
L2 Cache RAM
Total Memory
[1]
[2]
[3]
[4]
ADE-606A KTQ87118
06/30/2014
Genuine Intel ® CPU 0000 @2.60GHz
2.600 GHz
1333 MHz
256 KB
4096 MB
2048 MB (DDR3-1333) @ ChannelA-DIMM0
0 MB
2048 MB (DDR3-1333) @ ChannelB-DIMM0
0 MB
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 68
KTD-N0882-I Page 68 BIOS - Main
KTQ87/KTH81 Users Guide
Boot Features
Phoenix SecureCore Technology Setup
Main
Boot Features Item Specific Help
NumLock:
Timeout
CSM Support
Diagnostic Splash Screen
Diagnostic Summary Screen
UEFI Boot
Legacy Boot
[On]
[ 2]
[Yes]
[Disabled]
[Disabled]
[Disabled]
[Enabled]
Select Power-on state for NumLock.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
NumLock:
On
Off
Select Power-on state for NumLock.
Timeout 2 Note 1
Number of seconds that P.O.S.T will wait for the user
input before booting.
CSM Support
No
Yes
Compatibility Support Module that provides backward
compatibility services for legacy BIOS services, like
int10/int13, dependent OS.
Diagnostic Splash Screen
Disabled
Enabled
If you select ‘Enabled’ the diagnostic splash screen
always displays during boot. If you select ‘Disabled’
the diagnostic splash screen does not display unless
you press HOTKEY during boot.
Diagnostic Summary Screen
Disabled
Enabled
Display the diagnostic summary screen during boot.
UEFI Boot
Disabled
Enabled
Enable the UEFI boot.
Legacy Boot
Disabled
Enabled
Enable the Legacy boot.
Note 1: Use either digit keys to enter value (0 – 99) or +/- keys to increase/decrease value.
Page 69
KTD-N0882-I Page 69 BIOS - Main
KTQ87/KTH81 Users Guide
Error Manager
Phoenix SecureCore Technology Setup
Main
Error Manager Item Specific Help
View Error Manager Log
Clear Error Manager Log
[Enter]
[Enter]
Display Error Manager Log
information.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
View Error Manager Log
Enter
Display Error Manager Log information.
Clear Error Manager Log
Enter
Clear Error Manager Log.
Page 70
KTD-N0882-I Page 70 BIOS - Advanced
KTQ87/KTH81 Users Guide
10.2 Advanced
Phoenix SecureCore Technology Setup
Main
Advanced
Security
Boot
Exit
Select Language
► Silicon Information
► Processor Configuration
► HDD Configuration
► System Agent (SA) Configuration
► South Bridge Configuration
► LAN Configuration
► PCI bridge Configuration
► Hardware Health Configuration
► SMBIOS Event Log
► AMT Configuration
► MEBx Configuration
► ME Configuration
► Intel ® Rapid Start Technology
Setup Warning:
Setting items on this screen to incorrect
Values may cause the system to malfunction!
[English]
Item Specific Help
Select Language.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
The Advanced (main) menu contains only 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>.
Function
Selection
Description
Select Language
English
Francais
Etc.
Select Language.
Page 71
KTD-N0882-I Page 71 BIOS - Advanced
KTQ87/KTH81 Users Guide
Silicon Information
Phoenix SecureCore Technology Setup
Advanced
Genuine Intel ® CPU 0000 @ 2.60GHz
FAMILY
MODEL
CPUID
CPU REV.
PATCH ID
CORE FREQ.
L1 Cache
L2 Cache
L3 Cache
PCH TYPE
PCH REV.
4th Gen Intel Core Processor
22nm Haswell Desktop
306C2
B0 Stepping
FFFF0006
2.60GHz
64 KB
256 KB)
8192 KB
LynxPoint
C2 Stepping
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 72
KTD-N0882-I Page 72 BIOS - Advanced
KTQ87/KTH81 Users Guide
Processor Configuration
Function
Selection
Description
Active Processor Cores
All
1
2
3
Number of cores to enable in each processor
package.
Intel ® HT Technology
Disabled
Enabled
When Disabled only one thread per enabled core
is enabled.
Enable XD
Disabled
Enabled
Enabled Execute Disabled functionality. Also
known as Data Execution Prevention (DEP).
Intel ® Virtualization Technology
Disabled
Enabled
When enabled. A VMM can utilize the additional
hardware capabilities.
Intel ® Trusted Execution Technology
Disabled
Enabled
Enables utilization of additional hardware
capabilities provided by Intel ® Trusted
Execution Technology.
Changes require a full power cycle to take effect.
Phoenix SecureCore Technology Setup
Advanced
Processor Configuration Item Specific Help
Active Processor Cores
Intel ® HT Technology
Enable XD
Intel ® Virtualization Technology
Intel ® Trusted Execution Technology
► Processor Power Management
[All]
[Enabled]
[Enabled]
[Enabled]
[Disabled]
Number of cores to enable in each
processor package.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 73
KTD-N0882-I Page 73 BIOS - Advanced
KTQ87/KTH81 Users Guide
HDD Configuration
Phoenix SecureCore Technology Setup
Advanced
HDD Configuration Item Specific Help
SATA Device
Interface Combination
Serial ATA Port 0
Port Enable
Hot Plug
SATA Device Type
Serial ATA Port 1
Port Enable
Hot Plug
SATA Device Type
Serial ATA Port 2
Port Enable
Hot Plug
SATA Device Type
Serial ATA Port 3
Port Enable
Hot Plug
SATA Device Type
Serial ATA Port 4
Port Enable
Hot Plug
SATA Device Type
Serial ATA Port 5
Port Enable
Hot Plug
SATA Device Type
[Enabled]
[ACHI]
Not Installed or the port is disabled
[Enabled]
[Disabled]
[Hard Disk Drive]
Not Installed or the port is disabled
[Enabled]
[Disabled]
[Hard Disk Drive]
Not Installed or the port is disabled
[Enabled]
[Disabled]
[Hard Disk Drive]
Not Installed or the port is disabled
[Enabled]
[Disabled]
[Hard Disk Drive]
Not Installed or the port is disabled
[Enabled]
[Disabled]
[Hard Disk Drive]
Not Installed or the port is disabled
[Enabled]
[Disabled]
[Hard Disk Drive]
Enable/Disable SATA Device.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
SATA Device
Disabled
Enabled
Enable/Disable SATA Device.
Interface Combination
IDE
AHCI
RAID
Select the SATA controllers operation mode.
Serial ATA Port x (x = 0 – 5)
(Device if installed)
Port Enable
Disabled
Enabled
Enable/Disable this port.
Hot Plug
Disabled
Enabled
Designates the port as Hot Pluggable. Note:
Requires hardware support.
SATA Device Type
Hard Disk Drive
Solid State Drive
Page 74
KTD-N0882-I Page 74 BIOS - Advanced
KTQ87/KTH81 Users Guide
System Agent (SA) Configuration
Phoenix SecureCore Technology Setup
Advanced
System Agent (SA) Configuration Item Specific Help
► Graphics Configuration
► PEG Port Configuration
Press Enter to access the Graphics
Configuration menu.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 75
KTD-N0882-I Page 75 BIOS - Advanced
KTQ87/KTH81 Users Guide
Graphics Configuration
Function
Selection
Description
Primary Display Selection
IGD
PEG
Auto
Select the primary display device.
Internal Graphics
Disabled
Enabled
Auto
Enable/Disable the Internal Graphics Device.
This has no effect if external graphics are
present.
DVMT Pre-Allocated
32MB
64MB
128MB
Select Pre-Allocated Graphics Memory size used
by the Internal Graphics Device. This has no
effect if external graphics are present.
DVMT Total Gfx Mem
128MB
256MB
MAX
DVMT5.0 DVMT Graphic Memory Size. This has no
effect if external graphics are present.
Phoenix SecureCore Technology Setup
Advanced
Graphics Configuration Item Specific Help
Primary Display Selection
Internal Graphics
DVMT Pre-Allocated
DVMT Total Gfx Mem
► LVDS Configuration
► IGD Configuration
[Auto]
[Auto]
[32MB]
[256MB]
Select the primary display device.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 76
KTD-N0882-I Page 76 BIOS - Advanced
KTQ87/KTH81 Users Guide
LVDS Configuration
Function
Selection
Description
Switch mode
LVDS
DP
Switch Display Port-D between LVDS or DP.
LVDS Voltage Note1
3.3V
5V
Select the LVDS Voltage.
Panel Color Depth Note1
18 bpp
24 bpp
Select the LVDS Panel Color Depth.
Brightness Level Note1
0%, 10%, … 100%
Select the LVDS Brightness Level.
Panel Driver Note1
HW default
LG 1600x1200
.
.
.
Test 3
Select the Panel (EDID)
Note 1, only when Switch mode = LVDS.
Phoenix SecureCore Technology Setup
Advanced
LVDS Configuration Item Specific Help
Switch mode
LVDS Voltage
Panel Color Depth
Brightness Level
Panel Driver
[LVDS]
[3.3V]
[24 bpp]
[100%]
[HW default]
Switch Display Port-D between
LVDS or DP.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 77
KTD-N0882-I Page 77 BIOS - Advanced
KTQ87/KTH81 Users Guide
IGD Configuration
Function
Selection
Description
IGD – Boot Type
VBIOS Default
EFP
EFP3
EFP2
Select the Video Device activated during POST.
This has no effect if external graphics are
present.
Phoenix SecureCore Technology Setup
Advanced
IGD Configuration Item Specific Help
IGD – Boot Type
[VBIOS Default]
Select the Video Device activated
during POST. This has no effect if
external graphics are present.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 78
KTD-N0882-I Page 78 BIOS - Advanced
KTQ87/KTH81 Users Guide
PEG Port Configuration
Function
Selection
Description
PEG –Gen X
Auto
Gen1
Gen2
Gen3
Configure PEG0 B0:D1:F0 Speed.
PEG1 – Gen X
Auto
Gen1
Gen2
Gen3
Configure PEG1 B0:D1:F1 Speed.
PEG2 – Gen X
Auto
Gen1
Gen2
Gen3
Configure PEG2 B0:D1:F2 Speed.
Always Enable PEG
Disabled
Enabled
Enable PEG.
PEG ASPM
Disabled
L0S
L1
L0S And L1
Auto
PEG ASPM Settings.
De-emphasis Control
-6 dB
-3.5 dB
DeEmphasis control for PEG
Phoenix SecureCore Technology Setup
Advanced
PEG Port Configuration Item Specific Help
PEG –Gen X
PEG1 – Gen X
PEG2 – Gen X
Always Enable PEG
PEG ASPM
De-emphasis Control
[Auto]
[Auto]
[Auto]
[Enabled]
[Disabled]
[-3.5 dB]
Configure PEG0 B0:D1:F0 Speed.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 79
KTD-N0882-I Page 79 BIOS - Advanced
KTQ87/KTH81 Users Guide
South Bridge Configuration
Function
Selection
Description
Port 80h Cycles
LPC Bus
PCI Bus
Control where the Port 80h cycles are sent.
State After G3
State S5
State S0
Specify what state to switch to when power is
re-applied after a power failure (G3 state).
PS/2 Legacy device wake
Disabled
Wake from S3 Only
Wake from S4 Only
Wake from S3 and S4
Wake from S5 Only
Wake from S3, S4 and S5
Allow wake and/or power-on with PS/2
keyboard or mouse.
Phoenix SecureCore Technology Setup
Advanced
South Bridge Configuration Item Specific Help
Port 80h Cycles
State After G3
PS/2 Legacy device wake
► SB PCI Express Config
► SB USB Config
► SB Azalia Config
[LPC Bus]
[State S0]
[Wake from S3 Only]
Control where the Port 80h cycles
are sent.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 80
KTD-N0882-I Page 80 BIOS - Advanced
KTQ87/KTH81 Users Guide
SB PCI Express Config
Phoenix SecureCore Technology Setup
Advanced
SB PCI Express Config Item Specific Help
PCI Express Port assigned to LAN 2
► PCI Express Port 1 Config
► PCI Express Port 3 Config
► PCI Express Port 4 Config
► PCI Express Port 5 Config
Control the PCI Express Root Port.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 81
KTD-N0882-I Page 81 BIOS - Advanced
KTQ87/KTH81 Users Guide
PCI Express Root Port 1 (3, 4 & 5)
Phoenix SecureCore Technology Setup
Advanced
PCI Express Root Port 1 (3, 4 & 5) Item Specific Help
PCI Express Root Port 1 (3&4)
PCIe Speed
[Enabled]
[Auto]
Control the PCI Express Root Port.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
PCI Express Root Port x
(x= 1, 3,4 or 5)
Disabled
Enabled
Control the PCI Express Root Port.
PCIe Speed
Auto
Gen1
Gen2
Select PCIe Speed to Gen1 or Gen2.
Page 82
KTD-N0882-I Page 82 BIOS - Advanced
KTQ87/KTH81 Users Guide
SB USB Configuration
Function
Selection
Description
xHCI Mode
Disabled
Enabled
Auto
Smart Auto
Mode of operation of xHCI controller.
EHCI2
Disabled
Enabled
Control the USB EHCI (USB 2.0) functions.
USB Per-Port Disable Control
Disabled
Enabled
Control each of the USB ports (0~13)
enable/disable.
Phoenix SecureCore Technology Setup
Advanced
SB USB Configuration Item Specific Help
xHCI Mode
EHCI2
USB Per-Port Disable Control
[Smart Auto]
[Enabled]
[Disabled]
Mode of operation of xHCI controller.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 83
KTD-N0882-I Page 83 BIOS - Advanced
KTQ87/KTH81 Users Guide
SB Azalia Configuration
Function
Selection
Description
Azalia
Disabled
Enabled
Auto
Control Detection of the Azalia device.
Phoenix SecureCore Technology Setup
Advanced
SB Azalia Configuration Item Specific Help
Azalia
[Auto]
Control Detection of the Azalia
device.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 84
KTD-N0882-I Page 84 BIOS - Advanced
KTQ87/KTH81 Users Guide
LAN Configuration
Note: The “+” and “-“ (to the right of the MAC address) indicates respectively if link is established or not.
Function
Selection
Description
ETH1 Configuration (Left)
Disabled
Enabled
With PXE boot
Control the Ethernet Devices and PXE boot.
Wake on LAN
Disabled
Enabled
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 (Right)
Disabled
Enabled
With PXE boot
Control the Ethernet Devices and PXE boot.
Phoenix SecureCore Technology Setup
Advanced
LAN Configuration Item Specific Help
LAN Configuration
ETH1 Configuration (Left)
Wake on LAN
MAC Address & Link status :
ETH2 Configuration (Right)
MAC Address & Link status :
[Enabled]
[Enabled]
[00E0F42C4E01-]
[With PXE boot]
[00E0F42C4E02 -]
Control the Ethernet Devices and
PXE boot.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 85
KTD-N0882-I Page 85 BIOS - Advanced
KTQ87/KTH81 Users Guide
PCI bridge Configuration
Phoenix SecureCore Technology Setup
Advanced
PCI bridge Configuration Item Specific Help
Prefetch Agent Control
Cache Request Length Limit
Cache Request Count Limit
Cache Control
Cache Timer Transfer Limit
Cache Timer Lower Limit
Cache Timer Upper Limit
Read Prefetch
Completion Cache Mode
[128 Bytes]
[ 4]
[ 8]
[ 127]
[ 448]
[Enabled]
[Light Caching]
Request Length Limit. Determines
the number of bytes in the thread
that the pre-fetchagent will read for
that thread.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 86
KTD-N0882-I Page 86 BIOS - Advanced
KTQ87/KTH81 Users Guide
Function
Selection
Description
Cache Request Length Limit
64 Bytes
128 Bytes
256 Bytes
512 Bytes
1Kbytes
2Kbytes
4Kbytes
8Kbytes
Request Length Limit. Determines the number of
bytes in the thread that the pre-fetchagent will
read for that thread.
Cache Request Count Limit
0, 1, … 3, 4, 5, …, 15
Set the number of PCI cycle starts that have to
occur without a read hit on the completion data
buffer, before the cache data can be discarded.
Cache Timer Transfer Limit 0, 1, … 7, 8, 9, …, 15
Number of PCI cycle starts that have to occur
without a read hit on the completion data
buffer, before the cache data can be discarded.
Cache Timer Lower Limit
0, 1,… 127, … 4096
Minimum number of clock cycles that must have
passed without a read hit on the completion
data buffer, before the ‘cache miss limit’ check
can be triggered.
Cache Timer Upper Limit
0, 1,… 448, … 4096
Discard cache data after this number of clock
cycles have passed without a read hit on the
completion data buffer.
Read Prefetch
Enabled
Disabled
Control the pre-fetch functionality on PCI
memory read transactions.
Completion Cache Mode
No Caching
Light Caching
Full Caching
Determines the rules for completing the caching
process.
Light caching:
All remaining read completion data will be
discarded after any of the data has been
returned to the PCI master.
Light & Full caching:
Pre-fetching is enabled.
All remaining read completion data will be
cached after data has been returned to the PCI
master and the PCI master terminated the
transfer with RETRY.
Full caching:
All remaining read completion data will be
cached after data has been returned to the PCI
master and the PCI master terminated the
transfer.
Page 87
KTD-N0882-I Page 87 BIOS - Advanced
KTQ87/KTH81 Users Guide
Hardware Health Configuration
Note: System Temperature readout is the temperature measured by the selected sensor via System
Temperature Location. Example, if using same System Temperature Location selection for both System Fan
and System 2 Fan then System Temperature and System Temperature2 readout will be identical.
Phoenix SecureCore Technology Setup
Advanced
Hardware Health Configuration Item Specific Help
Hardware Health Configuration
System Temperature
System Temperature 2
CPU Temperature
System Fan Speed
System Temperature Location
Fan Cruise Control
System 2 Fan Speed
System Temperature Location
Fan Cruise Control
CPU Fan Speed:
Fan Cruise Control
Fan Settings
Fan Min limit
Fan Max limit
Watchdog Function
[ 42ºC/107ºF]
[ 42ºC/107ºF]
[ 50.46ºC/122ºF]
[ 0 RPM]
[Onboard]
[Disabled]
[ 0 RPM]
[Onboard]
[Disabled]
[ 742 RPM]
[Thermal]
[50]
[ 0]
[100]
[ 0]
Use external connected sensor
instead of onboard.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 88
KTD-N0882-I Page 88 BIOS - Advanced
KTQ87/KTH81 Users Guide
Function
Selection
Description
System Temperature Location
Onboard
LM75 @ 0x90 (Note 1)
Use external connected sensor instead of
onboard.
Fan Cruise Control (Note 2)
Disabled
Thermal
Speed
Disabled = Full speed.
Thermal: Regulate according to specified ºC.
Speed: Regulate according to specified RPM.
Fan Settings
30 – 90 (note3)
1000 – 10000 (note4)
Fan Min limit (Note 5) 0 (note6)
Minimum PWM %, can be used to make sure
fan is always active. Make sure Min limit <
Max limit.
Fan Max limit (Note 5) 100 (note6)
Maximum PWM %, can be used to limit the
fan noise. Make sure Min limit < Max limit.
Watchdog Function 0 - 255 (note7)
0 = Disabled.
Enter the service interval in seconds before
system will reset.
Note 1: When selecting LM75 @ 0x90 then the System Temperature and/or System Temperature 2 readout
will only be valid if the sensor is physically connected to the Feature connector.
Note 2: Three sets of settings (Fan Cruse Control, Fan Settings, Fan Min limit, Fan Max limit), one set for
System Fan, one set for System 2 Fan and one set for CPU Fan. The Fan Cruise Control is by default Disabled
for System Fan and System 2 Fan and by default Thermal for CPU Fan.
Note 3: ºC (if Fan Cruise Control is Thermal) use either digit keys to enter value or +/- keys to
increase/decrease value. Don’t use mix of digit keys and +/- keys.
Note 4: RPM (if Fan Cruise Control is 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.
Note 5: Only visible if Fan Cruise Control is Thermal.
Note6: Use number keys to enter value.
Note 7: Seconds, use digit keys to enter value. Value 0 means Watchdog is disabled. Refer to “KT-API-V2
User Manual” to control the Watchdog via API or refer to “KT-API-V2 User Manual DLL” how to control
Watchdog via Windows DLL.
Page 89
KTD-N0882-I Page 89 BIOS - Advanced
KTQ87/KTH81 Users Guide
SMBIOS Event Log
Note: Entering View SMBIOS event log will show log only.
Function
Selection
Description
Event Log
Disabled
Enabled
Enable/Disable Event Log.
Mark SMBIOS as read Enter
Mark SMBIOS events as read. Marked SMBIOS
events won’t be displayed.
Clears SMBIOS events
Enter
Clears SMBIOS events.
Phoenix SecureCore Technology Setup
Advanced
SMBIOS Event Log Item Specific Help
Event LOG Validity
Event Log Capacity
Event Log
► View SMBIOS event log
Mark SMBIOS as read
Clears SMBIOS events
Valid
Space Available
[Enabled]
[Enter]
[Enter]
Enable/Disable Event Log.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 90
KTD-N0882-I Page 90 BIOS - Advanced
KTQ87/KTH81 Users Guide
AMT Configuration
Phoenix SecureCore Technology Setup
Advanced
AMT Configuration Item Specific Help
Intel ® AMT
Enter Intel ® MEBx Setup
Un-Configure ME
[Enabled]
[Disabled]
[Disabled]
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.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
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.
Enter Intel ® MEBx Setup
Disabled
Enabled
Enter Intel ® MEBx Setup on the next boot.
Un-Configure ME
Disabled
Enabled
Un-configure ME without a password.
Page 91
KTD-N0882-I Page 91 BIOS - Advanced
KTQ87/KTH81 Users Guide
MEBx Configuration
Phoenix SecureCore Technology Setup
Advanced
MEBx Configuration Item Specific Help
Enter Intel ® MEBx Setup
Un-Configure ME
Hide Un-Configure ME Confirmation
MEBx Debug Message output
USB Provision
►MEBx Resolution Setting
[Disabled]
[Disabled]
[Disabled]
[Disabled]
[Enabled]
Enter Intel ® MEBx Setup on the
next boot.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
Enter Intel ® MEBx Setup
Disabled
Enabled
Enter Intel ® MEBx Setup on the next boot.
Un-Configure ME
Disabled
Enabled
Un-Configure ME without a password.
Hide Un-Configure ME Confirmation
Disabled
Enabled
Hide Un-Configure ME Confirmation without
password Confirmation Prompt.
MEBx Debug Message output
Disabled
Enabled
Enable/Disable MEBx Debug Message output.
USB Provision
Disabled
Enabled
Enable/Disable USB Provision function.
Page 92
KTD-N0882-I Page 92 BIOS - Advanced
KTQ87/KTH81 Users Guide
MEBx Resolution Setting
Phoenix SecureCore Technology Setup
Advanced
MEBx Resolution Setting Item Specific Help
Non-UI Text Mode resolution
UI Text Mode resolution
Graphic Mode resolution
[Auto]
[Auto]
[Auto]
Text Mode resolution used by MEBx
for messages outside MEBx User
Interface.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
Non-UI Text Mode resolution
Auto
80X25
100X31
Text Mode resolution used by MEBx for messages
outside MEBx User Interface.
UI Text Mode resolution
Auto
80X25
100X31
Text Mode resolution used by MEBx to display
the User Interface forms.
Graphic Mode resolution
Auto
640X480
800X600
1024X768
Graphic Mode resolution used by MEBx to display
boxes like consent sprite.
Page 93
KTD-N0882-I Page 93 BIOS - Advanced
KTQ87/KTH81 Users Guide
ME Configuration
Phoenix SecureCore Technology Setup
Advanced
ME Configuration Item Specific Help
ME FW Version
ME Firmware
Intel ® ME
Intel ® AT
9.1.2.1010
Intel ® ME 5MB firmware
[Enabled]
[Enabled]
Enable/Disable Intel ® Management
Engine.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
Intel ® ME
Disabled
Enabled
Enable/Disable Intel ® Management Engine.
Intel ® AT
Disabled
Enabled
Enable/Disable Intel ® Anti-Theft Technology.
Page 94
KTD-N0882-I Page 94 BIOS - Advanced
KTQ87/KTH81 Users Guide
Intel ® Rapid Start Technology
Phoenix SecureCore Technology Setup
Advanced
Intel ® Rapid Start Technology Item Specific Help
Intel ® Rapid Start Technology Support [Disabled]
Intel ® Rapid Start Technology.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
Intel ® Rapid Start
Technology Support
Disabled
Enabled
Intel ® Rapid Start Technology.
Page 95
KTD-N0882-I Page 95 BIOS - Security
KTQ87/KTH81 Users Guide
10.3 Security
Phoenix SecureCore Technology Setup
Main
Advanced
Security
Boot
Exit
Supervisor Password is:
User Password is:
Set Supervisor Password
Supervisor Hint String
Set User Password
User Hint String
Min. password length
Authenticate User on Boot
HDD Security Status
No HDD detected
Trusted Platform Module (TPM)
TPM Support
► TPM Configuration
Cleared
Cleared
[Enter]
[ ]
[Enter]
[ ]
[ 1]
[Disabled]
[Enabled]
Item Specific Help
Set or clear the Supervisor
account’s password.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
Set Supervisor Password
(up to 20 characters)
Set or clear the Supervisor account’s password.
Supervisor Hint String
(up to 20 characters)
Press Enter to type Supervisor Hint String.
Min. password length 1, 2, …, 20
Set the minimum number of characters for
password (1-20).
TPM Support
Disabled
Enabled
This is used to decide whether TPM support
should be enabled or disabled.
Page 96
KTD-N0882-I Page 96 BIOS - Security
KTQ87/KTH81 Users Guide
TPM Configuration
Phoenix SecureCore Technology Setup
Security
TPM Configuration
Item Specific Help
Current TPM State
TPM Action
Omit Boot Measurements
[Enabled and Activate]
[No Change]
[Disabled]
Enact TPM Action. Note: Most
TPM actions require TPM to be
Enabled to take effect.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Selection
Description
TPM Action
No Change
Enable
Disable
Activate
Deactivate
Clear
Enable and Activate
Disable and Deactivate
Set Owner Install, with State=True
Set Owner Install, with State=False
Enable, Activate, and Set Owner Install, with State=True
Disable, Deactivate, and Set Owner Install, with State=False
Clear, Enable, and Activate
Require PP for provisioning
Do not require PP for provisioning
Require PP for clear
Do not require PP for clear
Enable, Activate, and Clear
Enable, Activate, Clear, Enable, and Activate
Enact TPM Action. Note:
Most TPM actions require
TPM to be Enabled to take
effect.
TPM Support
Disabled
Enabled
Enabling this option
causes the system to omit
recording boot device
attempts in PCR[4].
Page 97
KTD-N0882-I Page 97 BIOS - Boot
KTQ87/KTH81 Users Guide
10.4 Boot
Phoenix SecureCore Technology Setup
Boot
Boot Priority Order
1. USB HDD:
2. USB CD:
3. USB FDD:
4. ATAPI CD:
5. ATA HDD0:
6. ATA HDD1:
7. ATA HDD2:
8. ATA HDD3:
9. ATA HDD4:
10. ATA HDD5:
11. Other HDD:
12. Internal Shell
13. PCI LAN:
Item Specific Help
Keys used to view or configure
devices: ↑ and ↓ arrows Select a
device. ‘+’ and ‘-‘ move the device
up or down. ‘Shift + 1’ enables or
disables a device. ‘Del’ deletes an
unprotected device.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Page 98
KTD-N0882-I Page 98 BIOS - Exit
KTQ87/KTH81 Users Guide
10.5 Exit
Phoenix SecureCore Technology Setup
Exit
Exit Saving Changes
Exit Discarding Changes
Load Setup Defaults
Discard Changes
Save Changes
Item Specific Help
Equal to F10, save all changes of
all menus, then exit setup
configure driver. Finally resets
the system automatically.
F1
Help
↑↓
Select Item
+/-
Change Values
F9
Setup Defaults
Esc
Exit
←→
Select Menu
Enter
Select ►Sub-Menu
F10
Save and Exit
Function
Description
Exit Saving Changes
Equal to F10, save all changes of all menus, then exit setup configure
driver. Finally resets the system automatically.
Exit Discarding Changes
Equal to ESC, never save changes, then exit setup configure driver.
Load Setup Defaults
Equal to F9. Load standard defaults values.
Discard Changes
Load the original value of this boot time. Not the default Setup value.
Save Changes
Save all changes of all menus, but do not reset system.
Loading...