DFI | SU968 | manual | Dfi SU968 Manual

Dfi SU968 Manual
SU968
COM Express Compact Module
User’s Manual
A41330952
1
Chapter 1 Introduction
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Copyright
FCC and DOC Statement on Class B
This publication contains information that is protected by copyright. No part of it may be reproduced in any form or by any means or used to make any transformation/adaptation without
the prior written permission from the copyright holders.
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a residential
installation. This equipment generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference
to radio communications. However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
This publication is provided for informational purposes only. The manufacturer makes no
representations or warranties with respect to the contents or use of this manual and specifically disclaims any express or implied warranties of merchantability or fitness for any particular
purpose. The user will assume the entire risk of the use or the results of the use of this document. Further, the manufacturer reserves the right to revise this publication and make changes
to its contents at any time, without obligation to notify any person or entity of such revisions
or changes.
•
•
•
Changes after the publication’s first release will be based on the product’s revision. The website
will always provide the most updated information.
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and the receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver
is connected.
Consult the dealer or an experienced radio TV technician for help.
© 2018. All Rights Reserved.
Notice:
Trademarks
1. The changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
2. Shielded interface cables must be used in order to comply with the emission limits.
Product names or trademarks appearing in this manual are for identification purpose only and
are the properties of the respective owners.
COM Express Specification Reference
PICMG® COM Express ModuleTM Base Specification.
http://www.picmg.org/
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Chapter 1 Introduction
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Table of Contents
Chapter 1 - Introduction............................6
Chapter 7 - Intel AMT Settings ............... 59
Specifications...........................................................................6
Appendix A - Troubleshooting .................. 72
Features .................................................................................7
Appendix B - Insyde BIOS Standard Status POST Code
...............................................................74
Chapter 2 - Concept..................................8
COM Express Module Standards................................................8
Specification Comparison Table .................................................9
Chapter 3 - Hardware Installation ............ 10
Board Layout ......................................................................... 10
Block Diagram ....................................................................... 10
Mechanical Diagram ............................................................... 11
System Memory ..................................................................... 12
Connectors ............................................................................ 13
CPU Fan Connector................................................................... 13
COM Express Connectors .......................................................... 13
COM Express Connectors .......................................................... 14
COM Express Connectors Signals and Descriptions ....................... 15
Standby Power LED ............................................................... 22
Cooling Option ....................................................................... 22
Installing SU968 onto a Carrier Board ..................................... 23
Installing the COM Express Debug Card .................................. 25
Chapter 4 - BIOS Setup .......................... 27
Overview .............................................................................. 27
Insyde BIOS Setup Utility ....................................................... 28
Main ....................................................................................... 28
Advanced ............................................................................... 28
Security .................................................................................. 35
Boot ....................................................................................... 36
Exit ........................................................................................ 38
Updating the BIOS ................................................................. 39
Notice: BIOS SPI ROM ........................................................... 39
Chapter 5 - Supported Software .............. 41
Chapter 6 - RAID ................................... 55
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Chapter 1 Introduction
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About this Manual
Static Electricity Precautions
This manual can be downloaded from the website, or acquired as an electronic file included in
the optional CD/DVD. The manual is subject to change and update without notice, and may
be based on editions that do not resemble your actual products. Please visit our website or
contact our sales representatives for the latest editions.
It is quite easy to inadvertently damage your PC, system board, components or devices even
before installing them in your system unit. Static electrical discharge can damage computer
components without causing any signs of physical damage. You must take extra care in handling them to ensure against electrostatic build-up.
1. To prevent electrostatic build-up, leave the system board in its anti-static bag until you are
ready to install it.
Warranty
2. Wear an antistatic wrist strap.
1. Warranty does not cover damages or failures that arised from misuse of the product,
inability to use the product, unauthorized replacement or alteration of components and
product specifications.
3. Do all preparation work on a static-free surface.
4. Hold the device only by its edges. Be careful not to touch any of the components, contacts
or connections.
2. The warranty is void if the product has been subjected to physical abuse, improper installation, modification, accidents or unauthorized repair of the product.
5. Avoid touching the pins or contacts on all modules and connectors. Hold modules or connectors by their ends.
3. Unless otherwise instructed in this user’s manual, the user may not, under any circumstances, attempt to perform service, adjustments or repairs on the product, whether in or
out of warranty. It must be returned to the purchase point, factory or authorized service
agency for all such work.
Important:
Electrostatic discharge (ESD) can damage your processor, disk drive and other components. Perform the upgrade instruction procedures described at an ESD workstation only. If such a station is not available, you can provide some ESD protection by
wearing an antistatic wrist strap and attaching it to a metal part of the system chassis. If a wrist strap is unavailable, establish and maintain contact with the system
chassis throughout any procedures requiring ESD protection.
4. We will not be liable for any indirect, special, incidental or consequencial damages to the
product that has been modified or altered.
Safety Measures
To avoid damage to the system:
• Use the correct AC input voltage range.
To reduce the risk of electric shock:
• Unplug the power cord before removing the system chassis cover for installation or servicing. After installation or servicing, cover the system chassis before plugging the power
cord.
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Chapter 1 Introduction
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About the Package
The package contains the following items. If any of these items are missing or damaged,
please contact your dealer or sales representative for assistance.
•
•
One SU968 board
One Heat Sink (Height: 23.8mm)
Optional Items
•
•
COM332-B Carrier Board Kit
Heat spreader (Height: 11mm)
The board and accessories in the package may not come similar to the information listed
above. This may differ in accordance with the sales region or models in which it was sold. For
more information about the standard package in your region, please contact your dealer or
sales representative.
Before Using the System Board
Before using the system board, prepare basic system components.
If you are installing the system board in a new system, you will need at least the following
internal components.
•
Storage devices such as hard disk drive, CD-ROM, etc.
You will also need external system peripherals you intend to use which will normally include at
least a keyboard, a mouse and a video display monitor.
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Chapter 1 Introduction
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Chapter 1
Chapter 1 - Introduction
Specifications
SYSTEM
Processor
Memory
GRAPHICS
EXPANSION
6th Generation Intel® CoreTM Processors, BGA 1356
Intel® CoreTM i7-6600U Processor, Dual Core, 4M Cache, 2.6GHz (3.4GHz), 15W
Intel® CoreTM i5-6300U Processor, Dual Core, 3M Cache, 2.4GHz (3.0GHz), 15W
Intel® CoreTM i3-6100U Processor, Dual Core, 3M Cache, 2.3GHz, 15W
Intel® Celeron® Processor 3955U, Dual Core, 2M Cache, 2.0GHz, 15W
WATCHDOG
TIMER
Output &
Interval
SECURITY
TPM
Available Upon Request
POWER
Type
12V, 5VSB, VCC_RTC (ATX mode)
12V, VCC_RTC (AT mode)
Consumption
Typical: I7-6600U: 12V @ 0.86A (10.28Watt)
Max.: I7-6600U: 12V @ 1.372A (16.46Watt)
Two 204-pin SODIMM up to 16GB
Dual Channel DDR3L 1600MHz
BIOS
Insyde SPI 128Mbit
Controller
Intel® HD Graphics
Feature
OpenGL 5.0, DirectX 12, OpenCL 2.1
HW Decode: AVC/H.264, MPEG2, VC1/WMV9, JPEG/MJPEG, HEVC/H265, VP8, VP9
HW Encode: AVC/H.264, MPEG2, JPEG, HEVC/H265, VP8, VP9
Display
1 x VGA/DDI (DDI available upon request)
1 x LVDS/eDP (eDP available upon request)
1 x DDI
VGA: resolution up to 1920x1200 @ 60Hz
LVDS: dual channel 24-bit, resolution up to 1920x1200 @ 60Hz
HDMI: resolution up to 4096x2160 @ 24Hz or 2560x1600 @ 60Hz
DP++: resolution up to 4096x2304 @ 60Hz
eDP: resolution up to 4096x2304 @ 60Hz
OS SUPPORT
Triple Displays
VGA + LVDS + DDI
DDI + eDP + DDI
Interface
5 PCIe x1 or 4 PCIe x1 + 1 PCIe x4 or 3 PCIe x1 + 2 PCIe x2 (support up to 5
devices and 8 lanes)
1 x LPC
1 x I2C
1 x SMBus
2 x UART (TX/RX)
AUDIO
Interface
HD Audio
ETHERNET
Controller
1 x Intel® I219LM with iAMT11.0 PCIe (10/100/1000Mbps)
(only Core i7/i5 supports iAMT)
I/O
USB
4 x USB 3.0
8 x USB 2.0
SATA
3 x SATA 3.0 (up to 6Gb/s)
RAID 0/1/5/10
DIO
1 x 8-bit DIO
ENVIRONMENT
MECHANICAL
System Reset, Programmable via Software from 1 to 255 Seconds
Windows 7/WES7 (32/64-bit)
Windows 8.1 (64-bit)
Windows 10 IoT Enterprise 64-bit
Ubuntu 16.04 (Intel graphic driver available)
Temperature
Operating
: 0 to 60°C
: -40 to 85°C (with heat spreader)
Storage: -40 to 85°C
Humidity
Operating: 5 to 90% RH
Storage: 5 to 90% RH
MTBF
921,923 hrs @ 25°C; 460,715 hrs @ 45°C; 256,677 hrs @ 60°C
Calculation Model: Telcordia Issue 2, Method Case 3
Environment: GB, GC – Ground Benign, Controlled
Dimensions
COM Express® Compact
95mm (3.74") x 95mm (3.74")
Compliance
PICMG COM Express® R2.1, Type 6
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Chapter 1 Introduction
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Chapter 1
Features
• Watchdog Timer
The Watchdog Timer function allows your application to regularly “clear” the system at the set
time interval. If the system hangs or fails to function, it will reset at the set time interval so
that your system will continue to operate.
• DDR3L
DDR3L SDRAM provides backward compatibility to DDR3 memory modules but can operate at
the same or at a lower power level.
• Graphics
The integrated Intel® HD graphics engine delivers an excellent blend of graphics performance
and features to meet business needs. It provides excellent video and 3D graphics with outstanding graphics responsiveness. These enhancements deliver the performance and compatibility needed for today’s and tomorrow’s business applications. It supports VGA/DDI, LVDS/
eDP and DDI interfaces for triple display outputs.
• Serial ATA
Serial ATA is a storage interface that is compliant with SATA 1.0a specification. With speed of
up to 6Gb/s (SATA 3.0), it improves hard drive performance to be faster than the standard
parallel ATA, which only has data transfer rate of 100MB/s. The bandwidth of the SATA 3.0 will
be limited by carrier board design.
• Gigabit LAN
The Intel® I219LM with iAMT11.0 Gigabit LAN controller supports up to 1Gbps data transmission (only Core i7/i5 supports iAMT).
• USB
The system board supports the new USB 3.0. It is capable of running at a maximum transmission speed of up to 5 Gbit/s (625 MB/s) and is faster than USB 2.0 (480 Mbit/s, or 60 MB/s)
and USB 1.1 (12Mb/s). USB 3.0 reduces the time required for data transmission, reduces
power consumption, and is backward compatible with USB 2.0. It is a marked improvement in
device transfer speeds between your computer and a wide range of simultaneously accessible
external Plug and Play peripherals.
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Chapter 1 Introduction
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Chapter 2
Chapter 2 - Concept
COM Express Module Standards
The figure below shows the dimensions of the different types of COM Express modules.
SU968 is a COM Express Compact module. The dimension is 95mm x 95mm.
Common for all Form Factors
Extended only
Basic only
Compact only
Compact and Basic only
Mini only
106.00
Extended
Compact
91.00
Basic
70.00
51.00
Mini
18.00
6.00
0.00
4.00
151.00
121.00
91.00
80.00
74.20
16.50
4.00
0.00
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Chapter 2 Concept
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Chapter 2
Specification Comparison Table
The table below shows the COM Express standard specifications and the corresponding specifications supported on the SU968 module.
Connector
Feature
COM Express Module Base
Specification Type 6
DFI SU968
Type 6
Connector
(No IDE or PCI, add DDI+ USB3)
Min / Max
System I/O
A-B
Feature
COM Express Module Base
Specification Type 6
(No IDE or PCI, add DDI+ USB3)
Min / Max
Power Management
A-B
A-B
PCI Express Lanes 0 - 5
1/6
6
A-B
Thermal Protection
0/1
A-B
LVDS Channel A
0/1
1
A-B
Battery Low Alarm
0/1
A-B
LVDS Channel B
1
A-B
Suspend/Wake Signals
0/3
A-B
eDP on LVDS CH A pins
0/1
1
A-B
Power Button Support
1/1
A-B
VGA Port
0/1
0/1 (Option : DDI2 or VGA)
A-B
Power Good
1/1
A-B
TV-Out
NA
NA
A-B
VCC_5V_SBY Contacts
4/4
A-B
DDI 0
NA
NA
A-B5
Sleep Input
0/1
A-B5
A-B
Serial Ports 1 - 2
0/2
2
A-B5
Lid Input
0/1
CAN interface on SER1
0/1
0
Fan Control Signals
0/2
A-B
SATA / SAS Ports
1/4
3 (with Intel® Celeron®: 2)
A-B5
A-B
Trusted Platform Modules
0/1
A-B
AC’97 / HDA Digital Interface
0/1
1
A-B
A-B
USB 2.0 Ports
4/8
8
A-B
VCC_12V Contacts
12 / 12
A-B
USB Client
0/1
0
A-B
USB 3.0 Ports
NA
NA
A-B
LAN Port 0
1/1
1
A-B
Express Card Support
1/2
2
A-B
LPC Bus
1/1
1
A-B
SPI
1/2
0/1
1
SDIO (muxed on GPIO)
0/1
0
General Purpose I/O
8/8
8
A-B
SMBus
1/1
1
A-B
I2C
1/1
1
A-B
Watchdog Timer
0/1
1
A-B
Speaker Out
1/1
1
A-B
External BIOS ROM Support
0/2
1
A-B
Reset Functions
1/1
1
A-B6
Power
1
1
1
1
1
4
1
1
2
1
12
Module Pin-out - Required and Optional Features C-D Connector. PICMG® COM.0 Revision 2.1
System Management
A-B
DFI SU968
Type 6
Connector
Feature
PCI Express Lanes 16 - 31
(No IDE or PCI, add DDI+ USB3)
Min / Max
System I/O
0 / 16
PCI Express Graphics (PEG)
0/1
Muxed SDVO Channels 1 - 2
NA
C-D
6
C-D
• 5 Indicates 12V-tolerant features on former VCC_12V signals.
• 6 Cells in the connected columns spanning rows provide a rough approximation of features
sharing connector pins.
COM Express Module Base
Specification Type 6
PCI Express Lanes 6 - 15
0/2
PCI Bus - 32 Bit
NA
PATA Port
NA
LAN Ports 1 - 2
NA
DDIs 1 - 3
0/3
C-D6
C-D
USB 3.0 Ports
0/4
C-D
VCC_12V Contacts
12 / 12
Power
DFI SU968
Type 6
0
0
NA
2
NA
NA
NA
1/2 (Option : DDI2 or VGA)
4
12
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Chapter 2 Concept
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Chapter 3
Chapter 3 - Hardware Installation
Block Diagram
Board Layout
DDR3L_1 SODIMM
DDI
(optional)
VGA
CH7517
LVDS
(optional)
PTN3460
eDP/DDI
(optional)
DDI Port 2
LPC Bus
TPM (optional)
iTE
IT8528VG
Intel
Serial Port 0,1
SLP/LID
Top View
TPM
WDT
Fan PWM/
TACH_IN
BGA 1356
I2C Bus
PWMIC
Embedded 1.2/2.0
Controller (optional)
IT8528E
Channel A
Channel B
Intel
I219LM
EEPROM
NXP
PTN3460
CPU Fan
1
TCA6408A
C/D
SPI Flash BIOS
DDR3L 1600MHz
SODIMM
6th Generation
®
Intel Core™ i7/i5/i3
8-bit DIO
A/B
Chrontel
CH7517
DDR3L 1600MHz
SODIMM
USB 3.0 4x
SMBus
PCIe x1 (4 x1/2 x2/1 x4)
DDI Port 1
Standby
Power LED
PCIe x1 (2 x1/1 x2)
MDI
DDR3L_2 SODIMM
Intel® GLAN
I219LM
PCIe x1
PCIe x1 (2 x1)
USB 2.0 8x
SATA 3.0 3x
HDA
SPI Bus
Bottom View
SPI Flash
D1
D110
COM Express connector
C110
B110
C1
B1
COM Express connector
A110
A1
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Chapter 3 Hardware Installation
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Chapter 3
Mechanical Diagram
SU968 Module
Heat Sink
95
91
208
Top View
95
46.64
80
91
95
95
95
80
16.50
45.28
0
4
+
-
18
6
4
0
17
16.50
7
0
4
6
18
3.5ā0.05
+0.1
1.5-0
3
1.5
20.3
0
4
R3
73
71
1
91
95
DIMM2
Bottom View
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Chapter 3 Hardware Installation
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Chapter 3
Important:
System
Memory
Electrostatic
discharge (ESD) can damage your board, processor, disk drives, add-in
boards, and other components. Perform installation procedures at an ESD workstation
only. If such a station is not available, you can provide some ESD protection by wearing an antistatic wrist strap and attaching it to a metal part of the system chassis. If
a wrist strap is unavailable, establish and maintain contact with the system chassis
throughout any procedures requiring ESD protection.
DDR3L_2
SODIMM
System Memory
The system board is equipped with two 204-pin SODIMM sockets supporting up to 16GB
system memory and dual channel DDR3L 1600MHz memory interface.
Important:
When the Standby Power LED is red, it indicates that there is power on the board.
Power-off the PC then unplug the power cord prior to installing any devices. Failure to
do so will cause severe damage to the board and components.
DDR3L_1
SODIMM
Bottom View
Standby
Power LED
Top View
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Chapter 3 Hardware Installation
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Chapter 3
Connectors
COM Express Connectors
CPU Fan Connector
The COM Express connectors are used to interface the SU968 COM Express board to a carrier
board. Connect the COM Express connectors (located on the solder side of the board) to the
COM Express connectors on the carrier board.
Refer to the “Installing SU968 onto a Carrier Board” section in this chapter for more information.
Sense
+12V
Ground
1
3
COM Express Connectors
Connect the CPU fan’s cable connector to the CPU fan connector on the board. The cooling fan
will provide adequate airflow throughout the chassis to prevent overheating the CPU and board
components.
BIOS Setting
“PC Health Status” submenu in the Advanced menu of the BIOS will display the current speed
of the cooling fan. Refer to chapter 4 of the manual for more information.
Refer to the following pages for the pin functions of these connectors.
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Chapter 3 Hardware Installation
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Chapter 3
COM Express Connectors
RowRow
A A
RowRow
B B
A1 A1 GNDGND
(FIXED)
(FIXED) B1 B1 GNDGND
(FIXED)
(FIXED)
A2 A2 GBE0_MDI3GBE0_MDI3- B2 B2 GBE0_ACT#
GBE0_ACT#
A3 A3 GBE0_MDI3+
GBE0_MDI3+ B3 B3 LPC_FRAME#
LPC_FRAME#
A4 A4 GBE0_LINK100#
GBE0_LINK100#B4 B4 LPC_AD0
LPC_AD0
A5 A5 GBE0_LINK1000#
GBE0_LINK1000#
B5 B5 LPC_AD1
LPC_AD1
A6 A6 GBE0_MDI2GBE0_MDI2- B6 B6 LPC_AD2
LPC_AD2
A7 A7 GBE0_MDI2+
GBE0_MDI2+ B7 B7 LPC_AD3
LPC_AD3
A8 A8 GBE0_LINK#
GBE0_LINK# B8 B8 NA NA
A9 A9 GBE0_MDI1GBE0_MDI1- B9 B9 NA NA
A10 A10GBE0_MDI1+
GBE0_MDI1+ B10 B10LPC_CLK
LPC_CLK
A11 A11GNDGND
(FIXED)
(FIXED) B11 B11GNDGND
(FIXED)
(FIXED)
A12 A12GBE0_MDI0GBE0_MDI0- B12 B12PWRBTN#
PWRBTN#
A13 A13GBE0_MDI0+
GBE0_MDI0+ B13 B13SMB_CK
SMB_CK
A14 A14GBE0_CTREF
GBE0_CTREF B14 B14SMB_DAT
SMB_DAT
A15 A15SUS_S3#
SUS_S3#
B15 B15SMB_ALERT#
SMB_ALERT#
RowRow
A A
A56 A56PCIE_TX4PCIE_TX4A57 A57GNDGND
A58 A58PCIE_TX3+
PCIE_TX3+
A59 A59PCIE_TX3PCIE_TX3A60 A60GNDGND
(FIXED)
(FIXED)
A61 A61PCIE_TX2+
PCIE_TX2+
A62 A62PCIE_TX2PCIE_TX2A63 A63GPI1GPI1
RowRow
B B
B56 B56PCIE_RX4PCIE_RX4B57 B57GPO2
GPO2
B58 B58PCIE_RX3+
PCIE_RX3+
B59 B59PCIE_RX3PCIE_RX3B60 B60GNDGND
(FIXED)
(FIXED)
B61 B61PCIE_RX2+
PCIE_RX2+
B62 B62PCIE_RX2PCIE_RX2B63 B63GPO3
GPO3
A64 A64PCIE_TX1+
PCIE_TX1+
A65 A65PCIE_TX1PCIE_TX1-
B64 B64PCIE_RX1+
PCIE_RX1+
B65 B65PCIE_RX1PCIE_RX1-
A66 A66GNDGND
A67 A67GPI2GPI2
A68 A68PCIE_TX0+
PCIE_TX0+
A69 A69PCIE_TX0PCIE_TX0A70 A70GND(FIXED)
GND(FIXED)
A71 A71LVDS_A0+
LVDS_A0+
B66 B66WAKE0#
WAKE0#
B67 B67NA NA
B68 B68PCIE_RX0+
PCIE_RX0+
B69 B69PCIE_RX0PCIE_RX0B70 B70GNDGND
(FIXED)
(FIXED)
B71 B71LVDS_B0+
LVDS_B0+
B16 B16SATA1_TX+
SATA1_TX+
A72 A72LVDS_A0LVDS_A0B72 B72LVDS_B0LVDS_B0A17 A17SATA0_TXSATA0_TX- B17 B17SATA1_TXSATA1_TXLVDS_A1+ B73 B73LVDS_B1+
LVDS_B1+
A18 A18SUS_S4#
SUS_S4#
B18 B18SUS_STAT#
SUS_STAT# A73 A73LVDS_A1+
LVDS_A1B74 B74LVDS_B1LVDS_B1A19 A19SATA0_RX+
SATA0_RX+ B19 B19SATA1_RX+
SATA1_RX+ A74 A74LVDS_A1A75 A75LVDS_A2+
LVDS_A2+ B75 B75LVDS_B2+
LVDS_B2+
A20 A20SATA0_RXSATA0_RX- B20 B20SATA1_RXSATA1_RXLVDS_A2B76 B76LVDS_B2LVDS_B2A21 A21GNDGND
(FIXED)
(FIXED) B21 B21GNDGND
(FIXED)
(FIXED) A76 A76LVDS_A2A77 A77LVDS_VDD_EN
LVDS_VDD_EN
B77 B77LVDS_B3+
LVDS_B3+
A22 A22SATA2_TX+
SATA2_TX+ B22 B22NA NA
A78 A78LVDS_A3+
LVDS_A3+ B78 B78LVDS_B3LVDS_B3A23 A23SATA2_TXSATA2_TX- B23 B23NA NA
A79 A79LVDS_A3LVDS_A3B79 B79LVDS_BKLT_EN
LVDS_BKLT_EN
A24 A24SUS_S5#
SUS_S5#
B24 B24PWR_OK
PWR_OK
A80 A80GNDGND
(FIXED)
(FIXED) B80 B80GNDGND
(FIXED)
(FIXED)
A25 A25SATA2_RX+
SATA2_RX+ B25 B25NA NA
A81 A81LVDS_A_CK+
LVDS_A_CK+ B81 B81LVDS_B_CK+
LVDS_B_CK+
A26 A26SATA2_RXSATA2_RX- B26 B26NA NA
A27 A27BATLOW#
BATLOW#
B27 B27WDTWDT
A82 A82LVDS_A_CKLVDS_A_CK- B82 B82LVDS_B_CKLVDS_B_CKA28 A28(S)ATA_ACT#
(S)ATA_ACT# B28 B28NA NA
A83 A83LVDS_I2C_CK
LVDS_I2C_CKB83 B83LVDS_BKLT_CTRL
LVDS_BKLT_CTRL
A29 A29AC/HDA_SYNC
AC/HDA_SYNC B29 B29AC/HDA
AC/HDA
_SDIN1
_SDIN1A84 A84LVDS_I2C_DAT
LVDS_I2C_DAT
B84 B84VCC_5V_SBY
VCC_5V_SBY
A30 A30AC/HDA
AC/HDA
_RST#
_RST#B30 B30AC/HDA
AC/HDA
_SDIN0
_SDIN0A85 A85GPI3GPI3
B85 B85VCC_5V_SBY
VCC_5V_SBY
A31 A31GNDGND
(FIXED)
(FIXED) B31 B31GNDGND
(FIXED)
(FIXED) A86 A86RSVD
RSVD
B86 B86VCC_5V_SBY
VCC_5V_SBY
A32 A32AC/HDA
AC/HDA
_BITCLK
_BITCLK
B32 B32SPKR
SPKR
A87 A87RSVD
RSVD
B87 B87VCC_5V_SBY
VCC_5V_SBY
A33 A33AC/HDA
AC/HDA
_SDOUT
_SDOUT
B33 B33I2C_CK
I2C_CK
A88 A88PCIE0_CK_REF+
PCIE0_CK_REF+
B88 B88BIOS_DIS1#
BIOS_DIS1#
A34 A34BIOS_DIS0#
BIOS_DIS0# B34 B34I2C_DAT
I2C_DAT
A89 A89PCIE0_CK_REFPCIE0_CK_REFB89 B89VGA_RED
VGA_RED
A35 A35THRMTRIP#
THRMTRIP# B35 B35THRM#
THRM#
A90 A90GNDGND
(FIXED)
(FIXED) B90 B90GNDGND
(FIXED)
(FIXED)
A36 A36USB6USB6B36 B36USB7USB7A91 A91SPI_POWER
SPI_POWER B91 B91VGA_GRN
VGA_GRN
A37 A37USB6+
USB6+
B37 B37USB7+
USB7+
A92 A92SPI_MISO
SPI_MISO
B92 B92VGA_BLU
VGA_BLU
A38 A38USB_6_7_OC#
USB_6_7_OC# B38 B38USB_4_5_OC#
USB_4_5_OC# A93 A93GPO0
GPO0
B93 B93VGA_HSYNC
VGA_HSYNC
A39 A39USB4USB4B39 B39USB5USB5A94 A94SPI_CLK
SPI_CLK
B94 B94VGA_VSYNC
VGA_VSYNC
A40 A40USB4+
USB4+
B40 B40USB5+
USB5+
A95 A95SPI_MOSI
SPI_MOSI
B95 B95VGA_I2C_CK
VGA_I2C_CK
A41 A41GNDGND
(FIXED)
(FIXED) B41 B41GNDGND
(FIXED)
(FIXED) A96 A96TPM_PP
TPM_PP
B96 B96VGA_I2C_DAT
VGA_I2C_DAT
A42 A42USB2USB2B42 B42USB3USB3A97 A97TYPE10#
TYPE10#
B97 B97SPI_CS#
SPI_CS#
A43 A43USB2+
USB2+
B43 B43USB3+
USB3+
A98 A98SER0_TX
SER0_TX
B98 B98RSVD
RSVD
A44 A44USB_2_3_OC#
USB_2_3_OC# B44 B44USB_0_1_OC#
USB_0_1_OC# A99 A99SER0_RX
SER0_RX
B99 B99RSVD
RSVD
A45 A45USB0USB0B45 B45USB1USB1A100A100
GNDGND
(FIXED)
(FIXED) B100B100
GNDGND
(FIXED)
(FIXED)
A46 A46USB0+
USB0+
B46 B46USB1+
USB1+
A101A101
SER1_TX
SER1_TX
B101B101
FAN_PWMOUT
FAN_PWMOUT
A47 A47VCC_RTC
VCC_RTC
B47 B47EXCD1_PERST#
EXCD1_PERST#A102A102
SER1_RX
SER1_RX
B102B102
FAN_TACHIN
FAN_TACHIN
A48 A48EXCD0_PERST#
EXCD0_PERST#
B48 B48EXCD1_CPPE#
EXCD1_CPPE# A103A103
LID#LID#
B103B103
SLEEP#
SLEEP#
A49 A49EXCD0_CPPE#
EXCD0_CPPE#B49 B49SYS_RESET#
SYS_RESET# A104A104
VCC_12V
VCC_12V
B104B104
VCC_12V
VCC_12V
A50 A50LPC_SERIRQ
LPC_SERIRQ B50 B50CB_RESET#
CB_RESET# A105A105
VCC_12V
VCC_12V
B105B105
VCC_12V
VCC_12V
A51 A51GNDGND
(FIXED)
(FIXED) B51 B51GNDGND
(FIXED)
(FIXED) A106A106
VCC_12V
VCC_12V
B106B106
VCC_12V
VCC_12V
A52 A52PCIE_TX5+
PCIE_TX5+
B52 B52PCIE_RX5+
PCIE_RX5+
A107A107
VCC_12V
VCC_12V
B107B107
VCC_12V
VCC_12V
A53 A53PCIE_TX5PCIE_TX5B53 B53PCIE_RX5PCIE_RX5A108A108
VCC_12V
VCC_12V
B108B108
VCC_12V
VCC_12V
A54 A54GPI0GPI0
B54 B54GPO1
GPO1
A109A109
VCC_12V
VCC_12V
B109B109
VCC_12V
VCC_12V
A55 A55PCIE_TX4+
PCIE_TX4+
B55 B55PCIE_RX4+
PCIE_RX4+
A110A110
GNDGND
(FIXED)
(FIXED) B110B110
GNDGND
(FIXED)
(FIXED)
A16 A16SATA0_TX+
SATA0_TX+
RowRow
C C
C1 C1 GNDGND
(FIXED)
(FIXED)
C2 C2 GNDGND
C3 C3 USB_SSRX0USB_SSRX0C4 C4 USB_SSRX0+
USB_SSRX0+
C5 C5 GNDGND
C6 C6 USB_SSRX1USB_SSRX1C7 C7 USB_SSRX1+
USB_SSRX1+
C8 C8 GNDGND
C9 C9 USB_SSRX2USB_SSRX2C10 C10USB_SSRX2+
USB_SSRX2+
C11 C11GNDGND
(FIXED)
(FIXED)
C12 C12USB_SSRX3USB_SSRX3C13 C13USB_SSRX3+
USB_SSRX3+
C14 C14GNDGND
C15 C15NA NA
RowRow
D D
RowRow
C C
RowRow
D D
C56 C56
NA NA
D56 D56NA NA
D1 D1 GNDGND
(FIXED)
(FIXED)
C57 C57TYPE1#
TYPE1#
D57 D57TYPE2#
TYPE2#
D2 D2 GNDGND
C58 C58NA NA
D58 D58NA NA
D3 D3 USB_SSTX0USB_SSTX0C59 C59NA NA
D59 D59NA NA
D4 D4 USB_SSTX0+
USB_SSTX0+
C60 C60GNDGND
(FIXED)
(FIXED)D60 D60GNDGND
(FIXED)
(FIXED)
D5 D5 GNDGND
C61 C61NA NA
D61 D61NA NA
D6 D6 USB_SSTX1USB_SSTX1C62 C62NA NA
D62 D62NA NA
D7 D7 USB_SSTX1+
USB_SSTX1+
C63 C63RSVD
RSVD
D8 D8 GNDGND
D63 D63RSVD
RSVD
D9 D9 USB_SSTX2USB_SSTX2C64 C64RSVD
RSVD
D64 D64RSVD
RSVD
C65 C65NA NA
D65 D65NA NA
D10 D10USB_SSTX2+
USB_SSTX2+
D66 D66NA NA
D11 D11GNDGND
(FIXED)
(FIXED)
C66 C66NA NA
C67 C67RSVD
RSVD
D12 D12USB_SSTX3USB_SSTX3D67 D67GNDGND
C68 C68NA NA
D13 D13USB_SSTX3+
USB_SSTX3+
D68 D68NA NA
C69 C69NA NA
D14 D14GNDGND
D69 D69NA NA
(FIXED)
(FIXED)D70 D70GNDGND
(FIXED)
(FIXED)
D15 D15DDI1_CTRLCLK_AUX+
DDI1_CTRLCLK_AUX+C70 C70GNDGND
C71 C71NA NA
D71 D71NA NA
D16 D16DDI1_CTRLDATA_AUXDDI1_CTRLDATA_AUXC72 C72NA NA
C17 C17RSVD
RSVD
D17 D17RSVD
RSVD
D72 D72NA NA
C73 C73GNDGND
D73 D73GNDGND
C18 C18RSVD
RSVD
D18 D18RSVD
RSVD
C74 C74NA NA
D74 D74NA NA
C19 C19PCIE_RX6+
PCIE_RX6+
D19 D19PCIE_TX6+
PCIE_TX6+
C75 C75NA NA
D75 D75NA NA
C20 C20PCIE_RX6PCIE_RX6D20 D20PCIE_TX6PCIE_TX6C76 C76GNDGND
D76 D76GNDGND
C21 C21GNDGND
(FIXED)
(FIXED)
D21 D21GNDGND
(FIXED)
(FIXED)
C77 C77RSVD
RSVD
D77 D77RSVD
RSVD
C22 C22PCIE_RX7+
PCIE_RX7+
D22 D22PCIE_TX7+
PCIE_TX7+
C78 C78NA NA
D78 D78NA NA
C23 C23PCIE_RX7PCIE_RX7D23 D23PCIE_TX7PCIE_TX7C79 C79NA NA
D79 D79NA NA
C24 C24DDI1_HPD
DDI1_HPD
D24 D24RSVD
RSVD
C80 C80GNDGND
(FIXED)
(FIXED)D80 D80GNDGND
(FIXED)
(FIXED)
C25 C25NA NA
D25 D25RSVD
RSVD
C81 C81NA NA
D81 D81NA NA
C26 C26NA NA
D26 D26DDI1_PAIR0+
DDI1_PAIR0+
C27 C27RSVD
RSVD
D27 D27DDI1_PAIR0DDI1_PAIR0C82 C82NA NA
D82 D82NA NA
C28 C28RSVD
RSVD
D28 D28RSVD
RSVD
C83 C83RSVD
RSVD
D83 D83RSVD
RSVD
C29 C29NA NA
D29 D29DDI1_PAIR1+
DDI1_PAIR1+
C84 C84GNDGND
D84 D84GNDGND
C30 C30NA NA
D30 D30DDI1_PAIR1DDI1_PAIR1C85 C85NA NA
D85 D85NA NA
C31 C31GNDGND
(FIXED)
(FIXED)
D31 D31GNDGND
(FIXED)
(FIXED)
C86 C86NA NA
D86 D86NA NA
C32 C32DDI2_CTRLCLK_AUX+
DDI2_CTRLCLK_AUX+
D32 D32DDI1_PAIR2+
DDI1_PAIR2+
C87 C87GNDGND
D87 D87GNDGND
C33 C33DDI2_CTRLDATA_AUXDDI2_CTRLDATA_AUXD33 D33DDI1_PAIR2DDI1_PAIR2C88 C88NA NA
D88 D88NA NA
C34 C34DDI2_DDC_AUX_SEL
DDI2_DDC_AUX_SELD34 D34DDI1_DDC_AUX_SEL
DDI1_DDC_AUX_SELC89 C89NA NA
D89 D89NA NA
C35 C35RSVD
RSVD
D35 D35RSVD
RSVD
C90 C90GNDGND
(FIXED)
(FIXED)D90 D90GNDGND
(FIXED)
(FIXED)
C36 C36NA NA
D36 D36DDI1_PAIR3+
DDI1_PAIR3+
C91 C91NA NA
D91 D91NA NA
C37 C37NA NA
D37 D37DDI1_PAIR3DDI1_PAIR3C92 C92NA NA
D92 D92NA NA
C38 C38NA NA
D38 D38RSVD
RSVD
C93 C93GNDGND
D93 D93GNDGND
C39 C39NA NA
D39 D39DDI2_PAIR0+
DDI2_PAIR0+
C94 C94NA NA
D94 D94NA NA
C40 C40NA NA
D40 D40DDI2_PAIR0DDI2_PAIR0C95 C95NA NA
D95 D95NA NA
C41 C41GNDGND
(FIXED)
(FIXED)
D41 D41GNDGND
(FIXED)
(FIXED)
C96 C96GNDGND
D96 D96GNDGND
C42 C42NA NA
D42 D42DDI2_PAIR1+
DDI2_PAIR1+
C97 C97RSVD
RSVD
D97 D97RSVD
RSVD
C43 C43NA NA
D43 D43DDI2_PAIR1DDI2_PAIR1C98 C98NA NA
D98 D98NA NA
C44 C44NA NA
D44 D44DDI2_HPD
DDI2_HPD
C99 C99NA NA
D99 D99NA NA
C45 C45RSVD
RSVD
D45 D45RSVD
RSVD
C100C100
GNDGND
(FIXED)
(FIXED)D100D100
GNDGND
(FIXED)
(FIXED)
C46 C46NA NA
D46 D46DDI2_PAIR2+
DDI2_PAIR2+
C101C101
NA NA
D101D101
NA NA
C47 C47NA NA
D47 D47DDI2_PAIR2DDI2_PAIR2C102C102
NA NA
D102D102
NA NA
C48 C48RSVD
RSVD
D48 D48RSVD
RSVD
C103C103
GNDGND
D103D103
GNDGND
C49 C49NA NA
D49 D49DDI2_PAIR3+
DDI2_PAIR3+
C104C104
VCC_12V
VCC_12V D104D104
VCC_12V
VCC_12V
C50 C50NA NA
D50 D50DDI2_PAIR3DDI2_PAIR3C105C105
VCC_12V
VCC_12V D105D105
VCC_12V
VCC_12V
C51 C51GNDGND
(FIXED)
(FIXED)
D51 D51GNDGND
(FIXED)
(FIXED)
C106C106
VCC_12V
VCC_12V D106D106
VCC_12V
VCC_12V
C52 C52NA NA
D52 D52NA NA
C107C107
VCC_12V
VCC_12V D107D107
VCC_12V
VCC_12V
C53 C53NA NA
D53 D53NA NA
C108C108
VCC_12V
VCC_12V D108D108
VCC_12V
VCC_12V
C54 C54TYPE0#
TYPE0#
D54 D54PEG_LANE_REV#
PEG_LANE_REV# C109C109
VCC_12V
VCC_12V D109D109
VCC_12V
VCC_12V
C55 C55NA NA
D55 D55NA NA
C110C110
GNDGND
(FIXED)
(FIXED)D110D110
GNDGND
(FIXED)
(FIXED)
C16 C16NA NA
14
Chapter 3 Hardware Installation
www.dfi.com
Chapter 3
COM Express Connectors Signals and Descriptions
Pin Types
I
Input to the Module
O Output from the Module
I/O Bi-directional input / output signal
OD Open drain output
AC97/HDA Signals and Descriptions
Signal
AC/HAD_RST#
AC/HDA_SYNC
AC/HDA_BITCLK
AC/HDA_SDOUT
AC/HDA_SDIN2
AC/HDA_SDIN1
AC/HDA_SDIN0
Pin#
A30
A29
A32
A33
B28
B29
B30
Gigabit Ethernet Signals and Descriptions
Module Pin Type
O CMOS
O CMOS
I/O CMOS
O CMOS
I/O CMOS
I/O CMOS
I/O CMOS
Pwr Rail /Tolerance
3.3V Suspend/3.3V
3.3V/3.3V
3.3V/3.3V
3.3V/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
SU968
SU968
Signal
Pin#
Module Pin Type
Pwr Rail /Tolerance
GBE0_MDI0+
A13
I/O Analog
3.3V max Suspend
GBE0_MDI0GBE0_MDI1+
GBE0_MDI1GBE0_MDI2+
GBE0_MDI2GBE0_MDI3+
GBE0_MDI3GBE0_ACT#
GBE0_LINK#
GBE0_LINK100#
GBE0_LINK100#
GBE0_LINK1000#
A12
A10
A9
A7
A6
A3
A2
B2
A8
A4
A4
A5
I/O Analog
I/O Analog
I/O Analog
I/O Analog
I/O Analog
I/O Analog
I/O Analog
OD CMOS
OD CMOS
OD CMOS
OD CMOS
OD CMOS
3.3V max Suspend
3.3V max Suspend
3.3V max Suspend
3.3V max Suspend
3.3V max Suspend
3.3V max Suspend
3.3V max Suspend
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
Module Pin Type
O SATA
O SATA
I SATA
I SATA
O SATA
O SATA
I SATA
I SATA
O SATA
O SATA
I SATA
I SATA
O SATA
O SATA
I SATA
I SATA
I/O CMOS
Pwr Rail /Tolerance
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
AC coupled on Module
3.3V / 3.3V
SATA Signals and Descriptions
Signal
SATA0_TX+
SATA0_TXSATA0_RX+
SATA0_RXSATA1_TX+
SATA1_TXSATA1_RX+
SATA1_RXSATA2_TX+
SATA2_TXSATA2_RX+
SATA2_RXSATA3_TX+
SATA3_TXSATA3_RX+
SATA3_RXATA_ACT#
Pin#
A16
A17
A19
A20
B16
B17
B19
B20
A22
A23
A25
A26
B22
B23
B25
B26
A28
Carrier Board
Connect to CODEC pin 11 RESET#
Connect to CODEC pin 10 SYNC
Connect to CODEC pin 6 BIT_CLK
Connect to CODEC pin 5 SDATA_OUT
Description
Reset output to CODEC, active low.
Sample-synchronization signal to the CODEC(s).
Serial data clock generated by the external CODEC(s).
Serial TDM data output to the CODEC.
NA
Serial TDM data inputs from up to 2 CODECs.
Connect 33 Ω in series to CODEC0 pin 8 SDATA_IN
Carrier Board
Connect to Magnetics Module MDI0+/-
Description
Gigabit Ethernet Controller 0: Media Dependent Interface Differential
Pairs 0,1,2,3. The MDI can operate in 1000, 100 and 10 Mbit / sec
modes. Some pairs are unused in some modes, per the following:
1000BASE-T 100BASE-TX 10BASE-T
MDI[0]+/B1_DA+/TX+/TX+/MDI[1]+/B1_DB+/RX+/RX+/MDI[2]+/B1_DC+/MDI[3]+/B1_DD+/-
Connect to Magnetics Module MDI1+/Connect to Magnetics Module MDI2+/Connect to Magnetics Module MDI3+/Connect to LED and recommend current limit resistor 150Ω to 3.3VSB
NC
Connect to LED and recommend current limit resistor 150Ω to 3.3VSB
Connect to LED and recommend current limit resistor 150Ω to 3.3VSB
SU968
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
NA
NA
NA
NA
PU 10K to 3.3V
Carrier Board
Connect to SATA0 Conn TX pin
Gigabit Ethernet Controller 0 activity indicator, active low.
Gigabit Ethernet Controller 0 link indicator, active low.
Gigabit Ethernet Controller 0 100 Mbit / sec link indicator, active low.
Gigabit Ethernet Controller 0 1000 Mbit / sec link indicator, active low.
Description
Serial ATA or SAS Channel 0 transmit differential pair.
Connect to SATA0 Conn RX pin
Serial ATA or SAS Channel 0 receive differential pair.
Connect to SATA1 Conn TX pin
Serial ATA or SAS Channel 1 transmit differential pair.
Connect to SATA1 Conn RX pin
Serial ATA or SAS Channel 1 receive differential pair.
Connect to SATA2 Conn TX pin
Serial ATA or SAS Channel 2 transmit differential pair.
Connect to SATA2 Conn RX pin
Serial ATA or SAS Channel 2 receive differential pair.
Serial ATA or SAS Channel 3 transmit differential pair.
Serial ATA or SAS Channel 3 receive differential pair.
Connect to LED and recommend current limit resistor 220Ω to 3.3V
ATA (parallel and serial) or SAS activity indicator, active low.
15
Chapter 3 Hardware Installation
www.dfi.com
Chapter 3
PCI Express Lanes Signals and Descriptions
Signal
PCIE_TX0+
PCIE_TX0PCIE_RX0+
PCIE_RX0PCIE_TX1+
PCIE_TX1PCIE_RX1+
PCIE_RX1PCIE_TX2+
PCIE_TX2PCIE_RX2+
PCIE_RX2PCIE_TX3+
PCIE_TX3PCIE_RX3+
PCIE_RX3PCIE_TX4+
PCIE_TX4PCIE_RX4+
PCIE_RX4PCIE_TX5+
PCIE_TX5PCIE_RX5+
PCIE_RX5PCIE_TX6+
PCIE_TX6PCIE_RX6+
PCIE_RX6PCIE_TX7+
PCIE_TX7PCIE_RX7+
PCIE_RX7PCIE0_CK_REF+
Pin#
A68
A69
B68
B69
A64
A65
B64
B65
A61
A62
B61
B62
A58
A59
B58
B59
A55
A56
B55
B56
A52
A53
B52
B53
D19
D20
C19
C20
D22
D23
C22
C23
A88
PCIE0_CK_REF-
A89
PEG Signals and Descriptions
Signal
PEG_TX0+
PEG_TX0PEG_RX0+
PEG_RX0PEG_TX1+
PEG_TX1PEG_RX1+
PEG_RX1PEG_TX2+
PEG_TX2PEG_RX2+
PEG_RX2PEG_TX3+
PEG_TX3PEG_RX3+
PEG_RX3PEG_TX4+
PEG_TX4PEG_RX4+
PEG_RX4PEG_TX5+
PEG_TX5PEG_RX5+
PEG_RX5PEG_TX6+
PEG_TX6PEG_RX6+
PEG_RX6PEG_TX7+
PEG_TX7PEG_RX7+
PEG_RX7PEG_TX8+
PEG_TX8PEG_RX8+
PEG_RX8PEG_TX9+
PEG_TX9PEG_RX9+
PEG_RX9PEG_TX10+
PEG_TX10PEG_RX10+
PEG_RX10PEG_TX11+
PEG_TX11PEG_RX11+
PEG_RX11PEG_TX12+
PEG_TX12-
Pin#
D52
D53
C52
C53
D55
D56
C55
C56
D58
D59
C58
C59
D61
D62
C61
C62
D65
D66
C65
C66
D68
D69
C68
C69
D71
D72
C71
C72
D74
D75
C74
C75
D78
D79
C78
C79
D81
D82
C81
C82
D85
D86
C85
C86
D88
D89
C88
C89
D91
D92
Chapter 3 Hardware Installation
Module Pin Type
Pwr Rail /Tolerance
O PCIE
AC coupled on Module
SU968
AC Coupling capacitor
AC Coupling capacitor
Carrier Board
Description
PCI Express Differential Transmit Pairs 0
Connect to PCIE device or slot
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 0
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 1
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 1
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 7
O PCIE
PCIE
Connect to PCIE device, PCIe CLK Buffer or slot
Reference clock output for all PCI Express and PCI Express Graphics
lanes.
Module Pin Type
Pwr Rail /Tolerance
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
SU968
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 2
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 2
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 3
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 3
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 4
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 4
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 5
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 5
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 6
Device - Connect AC Coupling cap 0.1uF
Slot - Connect to PCIE Conn pin
PCI Express Differential Receive Pairs 6
Connect to PCIE device or slot
PCI Express Differential Transmit Pairs 7
Carrier Board
Description
PCI Express Graphics transmit differential pairs 0
PCI Express Graphics receive differential pairs 0
PCI Express Graphics transmit differential pairs 1
PCI Express Graphics receive differential pairs 1
PCI Express Graphics transmit differential pairs 2
PCI Express Graphics receive differential pairs 2
PCI Express Graphics transmit differential pairs 3
PCI Express Graphics receive differential pairs 3
PCI Express Graphics transmit differential pairs 4
PCI Express Graphics receive differential pairs 4
PCI Express Graphics transmit differential pairs 5
PCI Express Graphics receive differential pairs 5
PCI Express Graphics transmit differential pairs 6
PCI Express Graphics receive differential pairs 6
PCI Express Graphics transmit differential pairs 7
PCI Express Graphics receive differential pairs 7
PCI Express Graphics transmit differential pairs 8
PCI Express Graphics receive differential pairs 8
PCI Express Graphics transmit differential pairs 9
PCI Express Graphics receive differential pairs 9
PCI Express Graphics transmit differential pairs 10
PCI Express Graphics receive differential pairs 10
16
PCI Express Graphics transmit differential pairs 11
PCI Express Graphics receive differential pairs 11
PCI Express Graphics transmit differential pairs 12
www.dfi.com
PEG_RX6+
C71
PEG_RX6C72
PEG_TX7+
D74
PEG_TX7D75
PEG_RX7+
C74
PEG_RX7C75
PEG_TX8+
D78
PEG_TX8D79
PEG_RX8+
C78
PEG_RX8C79
PEG_TX9+
D81
PEG_TX9D82
PEG_RX9+
PEG Signals and DescriptionsC81
PEG_RX9C82
Signal
Pin#
PEG_TX10+
D85
PEG_TX0+
D52
PEG_TX10D86
PEG_TX0D53
PEG_RX10+
C85
PEG_RX0+
C52
PEG_RX10C86
PEG_RX0C53
PEG_TX11+
D88
PEG_TX1+
D55
PEG_TX11D89
PEG_TX1D56
PEG_RX11+
C88
PEG_RX1+
C55
PEG_RX11C89
PEG_RX1C56
PEG_TX12+
D91
PEG_TX2+
D58
PEG_TX12D92
PEG_TX2D59
PEG_RX12+
C91
PEG_RX2+
C58
PEG_RX12C92
PEG_RX2C59
PEG_TX13+
D94
PEG_TX3+
D61
PEG_TX13D95
PEG_TX3D62
PEG_RX13+
C94
PEG_RX3+
C61
PEG_RX13C95
PEG_RX3C62
PEG_TX14+
D98
PEG_TX4+
D65
PEG_TX14D99
PEG_TX4D66
PEG_RX14+
C98
PEG_RX4+
C65
PEG_RX14C99
PEG_RX4C66
PEG_TX15+
D101
PEG_TX5+
D68
PEG_TX15D102
PEG_TX5D69
PEG_RX15+
C101
PEG_RX5+
C68
PEG_RX15C102
PEG_RX5C69
PEG_TX6+
D71
PEG_LANE_RV#
D54
PEG_TX6D72
PEG_RX6+
C71
PEG_RX6C72
ExpressCard Signals and Descriptions
PEG_TX7+
D74
Signal
Pin#
PEG_TX7D75
EXCD0_CPPE#
A49
PEG_RX7+
C74
EXCD1_CPPE#
B48
PEG_RX7C75
EXCD0_PERST#
A48
PEG_TX8+
D78
EXCD1_PERST#
B47
PEG_TX8D79
PEG_RX8+
DDI Signals and Descriptions C78
PEG_RX8C79
Signal
Pin#
PEG_TX9+
D81
DDI1_PAIR0+/SDVO1_RED+
D26
DDI1_PAIR0-/SDVO1_REDD27
PEG_TX9D82
DDI1_PAIR1+/SDVO1_GRN+
D29
PEG_RX9+
C81
DDI1_PAIR1-/SDVO1_GRND30
PEG_RX9C82
DDI1_PAIR2+/SDVO1_BLU+
D32
PEG_TX10+
D85
DDI1_PAIR2-/SDVO1_BLUD33
PEG_TX10D86
DDI1_PAIR3+/SDVO1_CK+
D36
PEG_RX10+
C85
DDI1_PAIR3-/SDVO1_CKD37
PEG_RX10C86
DDI1_PAIR4+/SDVO1_INT+
C25
PEG_TX11+
D88
DDI1_PAIR4-/SDVO1_INTC26
PEG_TX11D89
DDI1_PAIR5+/SDVO1_TVCLKIN+
C29
PEG_RX11+
C88
DDI1_PAIR5-/SDVO1_TVCLKINC30
DDI1_PAIR6+/SDVO1_FLDSTALL+
C15
PEG_RX11C89
DDI1_PAIR6-/SDVO1_FLDSTALLC16
PEG_TX12+
D91
PEG_TX12D92
PEG_RX12+
C91
DDI1_CTRLCLK_AUX+/SDVO1_CTRLCLK
D15
PEG_RX12C92
PEG_TX13+
D94
PEG_TX13D95
PEG_RX13+
C94
PEG_RX13C95
DDI1_CTRLCLK_AUX-/SDVO1_CTRLDATA
D16
PEG_TX14+
D98
PEG_TX14D99
PEG_RX14+
C98
PEG_RX14C99
DDI1_HPD
C24
PEG_TX15+
D101
PEG_TX15D102
PEG_RX15+
C101
DDI1_DDC_AUX_SEL
D34
PEG_RX15C102
DDI2_PAIR0+
PEG_LANE_RV#
DDI2_PAIR0DDI2_PAIR1+
DDI2_PAIR1DDI2_PAIR2+
DDI2_PAIR2DDI2_PAIR3+
DDI2_PAIR3-
DDI2_CTRLCLK_AUX+
D39
D54
D40
D42
D43
D46
D47
D49
D50
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
Module Pin Type
AC coupled off Module
Pwr Rail /Tolerance
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
PCIE
IOCMOS
AC coupled
3.3V
/ 3.3V on Module
I PCIE
AC coupled off Module
Module Pin Type
O PCIE
Pwr Rail /Tolerance
AC coupled on Module
I CMOS
I PCIE
3.3V /3.3V
AC coupled off Module
O CMOS
O PCIE
3.3V /3.3V
AC coupled on Module
I PCIE
AC coupled off Module
Module Pin Type
Pwr Rail /Tolerance
O PCIE
AC coupled off
on Module
O
PCIE
I PCIE
AC
AC coupled
coupled off
off Module
Module
O PCIE
O PCIE
AC coupled off Module
O PCIE
AC coupled off Module
I PCIE
AC coupled off Module
I PCIE
AC coupled off Module
I PCIE
AC coupled off Module
I PCIE
AC coupled off Module
O PCIE
AC coupled on Module
I/O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
I/O OD CMOS
3.3V / 3.3V
I/O
PCIE
I PCIE
AC coupled on
off Module
Module
O PCIE
I/O
OD CMOS
AC coupled
3.3V
/ 3.3V on Module
I PCIE
AC coupled off Module
I PCIE
O PCIE
O PCIE
AC coupled on Module
AC coupled off Module
AC coupled on Module
AC coupled on Module
I CMOS
3.3V / 3.3V
O PCIE
AC coupled on Module
I CMOS
3.3V / 3.3V
I CMOS
O
PCIE
3.3V
/ 3.3V off Module
AC
coupled
O PCIE
AC coupled off Module
O PCIE
AC coupled off Module
O PCIE
AC coupled off Module
I/O PCIE
AC coupled on Module
I PCIE
AC coupled off Module
C32
DDI2_CTRLCLK_AUX-
C33
DDI2_HPD
D44
DDI2_DDC_AUX_SEL
C34
DDI3_PAIR0+
C39
Chapter 3 Hardware Installation
I/O OD CMOS
3.3V / 3.3V
I/O PCIE
AC coupled on Module
I/O OD CMOS
3.3V / 3.3V
I CMOS
3.3V / 3.3V
I CMOS
3.3V / 3.3V
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
SU968
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
PU 10KNA
to 3.3V
NA
NA
NA
SU968
PU 10kNA
to 3.3V
PU 10kNA
to 3.3V
NA
NA
NA
NA
NA
SU968
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
PD 100K to GND NA
(S/W IC betweenNA
Rpu/PCH)
PU 4.7K to 3.3V, PDNA
100K to GND
(S/W IC betweenNA
Rpu/Rpd resistor)
NA
PU 100K to 3.3V
NA
(S/W IC betweenNA
Rpu/PCH)
PU 4.7K to 3.3V/PU NA
100K to 3.3V
(S/W IC betweenNA
4.7K/100K
resistor)
NA
NA
NA
NA
PD 1MNA
to GND
NA
PU 10K to 3.3V
Chapter 3
PCI Express Graphics transmit differential pairs 8
PCI Express Graphics receive differential pairs 8
PCI Express Graphics transmit differential pairs 9
Carrier Board
NA
PCI Express Graphics receive differential pairs 9
Description
PCI Express Graphics transmit differential pairs 10
0
PCI Express Graphics receive differential pairs 10
0
PCI Express Graphics transmit differential pairs 11
1
PCI Express Graphics receive differential pairs 11
1
PCI Express Graphics transmit differential pairs 12
2
PCI Express Graphics receive differential pairs 12
2
PCI Express Graphics transmit differential pairs 13
3
PCI Express Graphics receive differential pairs 13
3
PCI Express Graphics transmit differential pairs 14
4
PCI Express Graphics receive differential pairs 14
4
PCI Express Graphics transmit differential pairs 15
5
PCI Express Graphics receive differential pairs 15
5
PCI
reversal
input strap.
PCI Express
Express Graphics
Graphics lane
transmit
differential
pairs Pull
6 low on the Carrier
board to reverse lane order.
PCI Express Graphics receive differential pairs 6
Carrier Board
Description
PCI Express Graphics transmit differential pairs 7
PCI ExpressCard: PCI Express capable card request, active low, one per
cardExpress Graphics receive differential pairs 7
PCI
PCI ExpressCard: reset, active low, one per card
PCI Express Graphics transmit differential pairs 8
Connect
Connect
Connect
Connect
Connect
Connect
Connect
Connect
AC
AC
AC
AC
AC
AC
AC
AC
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
Carrier Board
to Device
to Device
to Device
to Device
to Device
to Device
to Device
to Device
PCI Express Graphics receive differential pairs 8
Description
DDI
1 Pair 0 Graphics
differential
pairs/Serial
Digitalpairs
Video9 B red output differential pair
PCI Express
transmit
differential
DDI
1 Pair 1 Graphics
differential
pairs/Serial
Digital
Video
PCI Express
receive
differential
pairs
9 B green output differential pair
DDI 1 Pair 2 differential pairs/Serial Digital Video B blue output differential pair
PCI Express Graphics transmit differential pairs 10
DDI 1 Pair 3 differential pairs/Serial Digital Video B clock output differential pair.
PCI Express Graphics receive differential pairs 10
Serial Digital Video B interrupt input differential pair.
PCI Express Graphics transmit differential pairs 11
Serial Digital Video TVOUT synchronization clock input differential pair.
PCI Express Graphics receive differential pairs 11
Serial Digital Video Field Stall input differential pair.
PCI Express Graphics transmit differential pairs 12
Connect to DP AUX+
DP AUX+ function if DDI1_DDC_AUX_SEL is no connect
Connect to HDMI/DVI I2C CTRLCLK
HDMI/DVI I2C CTRLCLK if DDI1_DDC_AUX_SEL is pulled high
Connect to DP AUX-
DP
function
if DDI1_DDC_AUX_SEL
is no 13
connect
PCIAUXExpress
Graphics
receive differential pairs
Connect to HDMI/DVI I2C CTRLDATA
PCI ExpressI2C
Graphics
transmit
differential pairs 14is pulled high
HDMI/DVI
CTRLDATA
if DDI1_DDC_AUX_SEL
PCI Express Graphics receive differential pairs 12
PCI Express Graphics transmit differential pairs 13
PCI Express Graphics receive differential pairs 14
PD 1M and Connect to device Hot Plug Detect
DDI Hot-Plug Detect
PU 100K to 3.3V for DDC(HDMI/DVI)
PCI Express
Graphicsoftransmit
differential pairsand
15 DDI1_CTRLDATA_AUX-.
Selects
the function
DDI1_CTRLCLK_AUX+
DDI[n]_DDC_AUX_SEL shall be pulled to 3.3V on the Carrier with a 100K Ohm
PCI Express
Graphicsthe
receive
differential
15DDC channel.
resistor
to configure
DDI[n]_AUX
pairpairs
as the
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
Connect
Connect
Connect
Connect
Connect
Connect
Connect
Connect
AC
AC
AC
AC
AC
AC
AC
AC
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
to
to
to
to
to
to
to
to
Device
Device
Device
Device
Device
Device
Device
Device
PCI Express Graphics lane reversal input strap. Pull low on the Carrier
DDI
2 Pair
0 differential
pairs
board
to reverse
lane order.
DDI 2 Pair 1 differential pairs
DDI 2 Pair 2 differential pairs
DDI 2 Pair 3 differential pairs
DP AUX+ function if DDI2_DDC_AUX_SEL is no connect
HDMI/DVI I2C CTRLCLK if DDI2_DDC_AUX_SEL is pulled high
Connect to DP AUX-
DP AUX- function if DDI2_DDC_AUX_SEL is no connect
Connect to HDMI/DVI I2C CTRLDATA
HDMI/DVI I2C CTRLDATA if DDI2_DDC_AUX_SEL is pulled high
PD 1M and Connect to device Hot Plug Detect
DDI Hot-Plug Detect
PU 100K to 3.3V for DDC(HDMI/DVI)
Selects the function of DDI2_CTRLCLK_AUX+ and DDI2_CTRLDATA_AUX-.
DDI[n]_DDC_AUX_SEL shall be pulled to 3.3V on the Carrier with a 100K Ohm
resistor to configure the DDI[n]_AUX pair as the DDC channel.
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
17
PD 1M to GND
PCI Express Graphics transmit differential pairs 7
PCI Express Graphics receive differential pairs 7
PD 100K to GND
Connect to DP AUX+
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V, PD 100K to GND
(S/W IC between Rpu/Rpd resistor) Connect to HDMI/DVI I2C CTRLCLK
PU 100K to 3.3V
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V/PU 100K to 3.3V
(S/W IC between 4.7K/100K
resistor)
PCI Express Graphics receive differential pairs 6
www.dfi.com
DDI2_PAIR0+
DDI2_PAIR0DDI2_PAIR1+
DDI2_PAIR1DDI2_PAIR2+
DDI2_PAIR2DDI2_PAIR3+
DDI2_PAIR3-
D39
D40
D42
D43
D46
D47
D49
D50
DDI2_CTRLCLK_AUX+
DDI Signals and Descriptions
DDI3_CTRLCLK_AUX+
DDI1_CTRLCLK_AUX-/SDVO1_CTRLDATA
DDI3_HPD
DDI1_DDC_AUX_SEL
DDI3_DDC_AUX_SEL
DDI2_PAIR0+
DDI2_PAIR0DDI2_PAIR1+
DDI2_PAIR1USB Signals and
DDI2_PAIR2+
Signal
DDI2_PAIR2USB0+
DDI2_PAIR3+
USB0DDI2_PAIR3-
Pin#
D26
D27
C33
D29
D30
D32
D44
D33
D36
D37
C34
C25
C26
C29
C39
C30
C40
C15
C42
C16
C43
C46
C47
D15
C49
C50
C36
D16
C24
C37
C44
D34
C38
D39
D40
D42
D43
DescriptionsD46
Pin#
D47
A46
D49
A45
D50
USB1+
USB1DDI2_CTRLCLK_AUX+
USB2+
USB2USB3+
USB3USB4+
DDI2_CTRLCLK_AUXUSB4USB5+
USB5DDI2_HPD
USB6+
USB6USB7+
DDI2_DDC_AUX_SEL
USB7-
B46
B45
C32
A43
A42
B43
B42
A40
C33
A39
B40
B39
D44
A37
A36
B37
C34
B36
DDI3_PAIR0+
C39
B44
C40
C42
C43
C46
C47
A44
C49
C50
USB_0_1_OC#
DDI3_PAIR0DDI3_PAIR1+
DDI3_PAIR1DDI3_PAIR2+
DDI3_PAIR2USB_2_3_OC#
DDI3_PAIR3+
DDI3_PAIR3-
DDI3_CTRLCLK_AUX+
USB_4_5_OC#
DDI3_CTRLCLK_AUX-
C36
B38
C37
USB_6_7_OC#
A38
DDI3_HPD
C44
USB_SSTX0+
USB_SSTX0DDI3_DDC_AUX_SEL
USB_SSRX0+
USB_SSRX0USB_SSTX1+
USB_SSTX1USB_SSRX1+
USB_SSRX1USB_SSTX2+
USB_SSTX2USB_SSRX2+
USB_SSRX2USB_SSTX3+
USB_SSTX3USB_SSRX3+
USB_SSRX3-
AC coupled off Module
O PCIE
AC coupled off Module
O PCIE
AC coupled off Module
O PCIE
AC coupled off Module
I/O PCIE
AC coupled on Module
I/O OD CMOS
3.3V / 3.3V
Module Pin Type
Pwr Rail /Tolerance
I/OPCIE
PCIE
O
on Module
AC coupled off
O PCIE
I/O OD CMOS
AC coupled off Module
3.3V / 3.3V
O PCIE
I CMOS
AC coupled off Module
3.3V / 3.3V
O PCIE
AC coupled off Module
I CMOS
I PCIE
3.3V / 3.3V
AC coupled off Module
I PCIE
O PCIE
AC coupled off Module
AC coupled off Module
C32
Signal
DDI1_PAIR0+/SDVO1_RED+
DDI1_PAIR0-/SDVO1_REDDDI2_CTRLCLK_AUXDDI1_PAIR1+/SDVO1_GRN+
DDI1_PAIR1-/SDVO1_GRNDDI1_PAIR2+/SDVO1_BLU+
DDI2_HPD
DDI1_PAIR2-/SDVO1_BLUDDI1_PAIR3+/SDVO1_CK+
DDI1_PAIR3-/SDVO1_CKDDI2_DDC_AUX_SEL
DDI1_PAIR4+/SDVO1_INT+
DDI1_PAIR4-/SDVO1_INTDDI1_PAIR5+/SDVO1_TVCLKIN+
DDI3_PAIR0+
DDI1_PAIR5-/SDVO1_TVCLKINDDI3_PAIR0DDI1_PAIR6+/SDVO1_FLDSTALL+
DDI3_PAIR1+
DDI1_PAIR6-/SDVO1_FLDSTALLDDI3_PAIR1DDI3_PAIR2+
DDI3_PAIR2DDI1_CTRLCLK_AUX+/SDVO1_CTRLCLK
DDI3_PAIR3+
DDI3_PAIR3-
DDI1_HPD
DDI3_CTRLCLK_AUX-
O PCIE
D4
D3
C38
C4
C3
D7
D6
C7
C6
D10
D9
C10
C9
D13
D12
C13
C12
Chapter 3 Hardware Installation
I PCIE
O PCIE
AC coupled off Module
AC coupled off Module
I/O PCIE
O PCIE
AC coupled on Module
AC coupled off Module
Connect
Connect
Connect
Connect
Connect
Connect
Connect
Connect
SU968
PU 100K to 3.3V
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V/PU 100K to 3.3V
(S/W IC between 4.7K/100K
resistor)
AC coupled
3.3V
/ 3.3V off Module
AC coupled on Module
AC coupled on Module
I/O OD CMOS
I/O OD CMOS
3.3V / 3.3V
3.3V / 3.3V
I/O PCIE
I CMOS
AC coupled on Module
3.3V / 3.3V
I/O OD CMOS
3.3V / 3.3V
NA
I CMOS
I CMOS
3.3V / 3.3V
3.3V / 3.3V
NA
PD 1M to GND
I CMOS
O PCIE
3.3V / 3.3V
AC coupled off Module
O PCIE
AC coupled off Module
O
PCIE Pin Type
Module
AC
off Module
Pwrcoupled
Rail /Tolerance
I/O
USB
O PCIE
3.3V
Suspend/3.3V
AC coupled
off Module
PCIE
I/O USB
AC coupled
on Module
3.3V
Suspend/3.3V
I/O USB
3.3V Suspend/3.3V
I/O USB
3.3V / 3.3V
3.3V Suspend/3.3V
AC coupled on Module
I/O USB
3.3V Suspend/3.3V
I/O OD CMOS
3.3V / 3.3V
I CMOS
3.3V / 3.3V
I/O USB
3.3V Suspend/3.3V
II/O
CMOS
USB
3.3V
3.3V
3.3V /Suspend/3.3V
O PCIE
AC coupled off Module
I/O USB
I CMOS
3.3V Suspend/3.3V
3.3V Suspend/3.3V
O PCIE
AC coupled off Module
O PCIE
AC coupled off Module
I CMOS
3.3V Suspend/3.3V
O PCIE
AC coupled off Module
I/O PCIE
AC coupled on Module
I CMOS
3.3V Suspend/3.3V
I/O OD CMOS
3.3V / 3.3V
I/O PCIE
AC coupled on Module
I CMOS
3.3V Suspend/3.3V
I/O OD CMOS
3.3V / 3.3V
I CMOS
3.3V / 3.3V
O PCIE
AC coupled on Module
I CMOS
I PCIE
3.3V / 3.3V
AC coupled off Modul
O PCIE
AC coupled on Module
I PCIE
AC coupled off Modul
O PCIE
AC coupled on Module
I PCIE
AC coupled off Modul
O PCIE
AC coupled on Module
I PCIE
AC coupled off Modul
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
Capacitors
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
to
to
to
to
to
to
to
to
Device
Device
Device
Device
Device
Device
Device
Device
DDI 2 Pair 0 differential pairs
DDI 2 Pair 1 differential pairs
DDI 2 Pair 2 differential pairs
DDI 2 Pair 3 differential pairs
DP AUX+ function if DDI2_DDC_AUX_SEL is no connect
HDMI/DVI I2C CTRLCLK if DDI2_DDC_AUX_SEL is pulled high
Carrier Board
Connect AC Coupling Capacitors 0.1uF to Device
Connect to DP AUXConnect AC Coupling Capacitors 0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
I2C CTRLDATA
Connect to
ACHDMI/DVI
Coupling Capacitors
0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
PD 1M and
toCapacitors
device Hot0.1uF
Plug Detect
Connect
ACConnect
Coupling
to Device
Connect AC Coupling Capacitors 0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
PU 100K to 3.3V for DDC(HDMI/DVI)
PD 1MNA
to GND
NA
NA
NA
NA
NA
NA
NA
NA
PD 100K to GND NA
Connect to DP AUX+
(S/W IC betweenNA
Rpu/PCH)
NA
PU 4.7K to 3.3V, PD 100K to GND
NA
(S/W IC between Rpu/Rpd resistor) Connect to HDMI/DVI I2C CTRLCLK
NA
I/O PCIE
I/O PCIE
I/O PCIE
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
Coupling
PD 100K to GND
Connect to DP AUX+
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V, PD 100K to GND
(S/W IC between Rpu/Rpd resistor) Connect to HDMI/DVI I2C CTRLCLK
O PCIE
I/O
OD CMOS
I/O OD CMOS
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
Chapter 3
AC
AC
AC
AC
AC
AC
AC
AC
NA
PU 100K to 3.3V
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V/PU NA
100K to 3.3V
(S/W IC between 4.7K/100K
resistor)
NA
NA
SU968
PD 100K to GND
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V, PD 100K to GND
(S/W IC between Rpu/Rpd resistor)
PU 100K to 3.3V
(S/W IC between Rpu/PCH)
PU 4.7K to 3.3V/PU 100K to 3.3V
(S/W IC between 4.7K/100K
resistor)
PD 1M to GND
NA
PU 10k to
NA3V3_DU
NA
NA
NA
NA
PU 10k to
NA3V3_DU
NA
NA
NA
NA
AC Coupling capacitor
AC Coupling capacitor
NA
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
DDI 1 Pair 1 differential pairs/Serial Digital Video B green output differential pair
HDMI/DVI I2C CTRLDATA if DDI2_DDC_AUX_SEL is pulled high
DDI 1 Pair 2 differential pairs/Serial Digital Video B blue output differential pair
DDI Hot-Plug Detect
Selects
the 3function
of DDI2_CTRLCLK_AUX+
andBDDI2_CTRLDATA_AUX-.
DDI 1 Pair
differential
pairs/Serial Digital Video
clock output differential pair.
DDI[n]_DDC_AUX_SEL shall be pulled to 3.3V on the Carrier with a 100K Ohm
resistor
to configure
DDI[n]_AUX
pair as thepair.
DDC channel.
Serial Digital
Video Bthe
interrupt
input differential
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
Serial Digital Video TVOUT synchronization clock input differential pair.
DDI 3 Pair 0 differential pairs
Serial Digital Video Field Stall input differential pair.
DDI 3 Pair 1 differential pairs
DDI
3 Pair I2C
3 differential
HDMI/DVI
CTRLCLK pairs
if DDI1_DDC_AUX_SEL is pulled high
Connect to DP AUX-
DP AUX+ function if DDI3_DDC_AUX_SEL is no connect
DP AUX- function if DDI1_DDC_AUX_SEL is no connect
Connect to HDMI/DVI I2C CTRLDATA
HDMI/DVI I2C CTRLCLK if DDI3_DDC_AUX_SEL is pulled high
HDMI/DVI I2C CTRLDATA if DDI1_DDC_AUX_SEL is pulled high
PD 1M and Connect to device Hot Plug Detect
DP AUX- function if DDI3_DDC_AUX_SEL is no connect
DDI Hot-Plug Detect
PU 100K to 3.3V for DDC(HDMI/DVI)
HDMI/DVI
CTRLDATA
if DDI3_DDC_AUX_SEL
pulled high
Selects
the I2C
function
of DDI1_CTRLCLK_AUX+
and is
DDI1_CTRLDATA_AUX-.
DDI[n]_DDC_AUX_SEL
shall be pulled to 3.3V on the Carrier with a 100K Ohm
DDI Hot-Plug Detect
resistor
to
configure
the
DDI[n]_AUX
pair
as
the
DDC
channel.
Selects the function of DDI3_CTRLCLK_AUX+ and DDI3_CTRLDATA_AUX-.
Carrier
DDI[n]_DDC_AUX_SEL
connected
pin 13with
of the
DisplayPort
DDI[n]_DDC_AUX_SEL
shall beshould
pulled be
to 3.3V
on thetoCarrier
a 100K
Ohm
Connect AC Coupling Capacitors 0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
Connect AC Coupling Capacitors 0.1uF to Device
Carrier
Connect AC Coupling Capacitors 0.1uF to
DeviceBoard
Connect
@100MHz
Common0.1uF
ChoketoinDevice
series and ESD suppressors to GND to USB
Connect 90Ω
AC Coupling
Capacitors
connector
Connect AC Coupling Capacitors 0.1uF to Device
Connect 90Ω @100MHz Common Choke in series
Connect to DP AUX+
connector
Connect 90Ω @100MHz Common Choke in series
Connect to HDMI/DVI I2C CTRLCLK
connector
Connect 90Ω @100MHz Common Choke in series
connectorto DP AUXConnect
Connect 90Ω @100MHz Common Choke in series
connector
Connect to HDMI/DVI I2C CTRLDATA
Connect 90Ω @100MHz Common Choke in series
connector
PD 1M and Connect to device Hot Plug Detect
Connect 90Ω @100MHz Common Choke in series
connector
Connect
@100MHz
Common Choke in series
PU 100K 90Ω
to 3.3V
for DDC(HDMI/DVI)
connector
and ESD suppressors to GND to USB
and ESD suppressors to GND to USB
resistor to configure the DDI[n]_AUX pair as the DDC channel.
DDI 2 Pair 0 differential pairs
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
DDI 2 Pair 1 differential pairs
DDI
2 Pair 2 differential pairs
Description
USB
differential
pairs 0 pairs
DDI 2
Pair 3 differential
DP AUX+
function
if DDI2_DDC_AUX_SEL
is no connect
USB
differential
pairs
1
USB differential pairs 2
HDMI/DVI I2C CTRLCLK if DDI2_DDC_AUX_SEL is pulled high
and ESD suppressors to GND to USB
and ESD suppressors to GND to USB
and ESD suppressors to GND to USB
and ESD suppressors to GND to USB
and ESD suppressors to GND to USB
USB differential pairs 3
DP AUX- function if DDI2_DDC_AUX_SEL is no connect
USB differential pairs 4
HDMI/DVI I2C CTRLDATA if DDI2_DDC_AUX_SEL is pulled high
USB differential pairs 5
DDI Hot-Plug Detect
USB differential
pairsof6 DDI2_CTRLCLK_AUX+ and DDI2_CTRLDATA_AUX-.
Selects
the function
DDI[n]_DDC_AUX_SEL shall be pulled to 3.3V on the Carrier with a 100K Ohm
USB differential
pairsthe
7 DDI[n]_AUX pair as the DDC channel.
resistor
to configure
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
Connect to Overcurrent of USB Power Switch
USB over-current sense, USB channels 0 and 1. A pull-up for this line
shall
present
on the Module.
DDI 3be
Pair
0 differential
pairs An open drain driver from a USB
current monitor on the Carrier Board may drive this line low. Do not
DDI this
3 Pair
differential
pull
line1 high
on the pairs
Carrier Board.
Connect to Overcurrent of USB Power Switch
USB
over-current sense, USB channels 2 and 3. A pull-up for this line
DDI 3 Pair 2 differential pairs
shall be present on the Module. An open drain driver from a USB
current
monitor
on the Carrier
DDI 3 Pair
3 differential
pairs Board may drive this line low. Do not
pull this line high on the Carrier Board.
DP
functionsense,
if DDI3_DDC_AUX_SEL
is no
USBAUX+
over-current
USB channels 4 and
5. connect
A pull-up for this line
Connect to Overcurrent of USB Power Switch
shall be present on the Module. An open drain driver from a USB
current monitor
on the Carrier
Board may drive this
line low.
HDMI/DVI
I2C CTRLCLK
if DDI3_DDC_AUX_SEL
is pulled
highDo not
pull this line high on the Carrier Board.
USBAUXover-current
USB channels 6 and
A pull-up for this line
DP
function sense,
if DDI3_DDC_AUX_SEL
is no7.connect
NA
PU 10k to 3V3_DU
DP AUXfunction
if DDI2_DDC_AUX_SEL
no connect
DDI
1 Pair
0 differential
pairs/Serial DigitalisVideo
B red output differential pair
DP AUX+ function if DDI1_DDC_AUX_SEL is no connect
DDI 3 Pair 2 differential pairs
NA
PU 10k to 3V3_DU
Description
Connect to Overcurrent of USB Power Switch
shall be present on the Module. An open drain driver from a USB
current monitor
on the Carrier
Board may drive thisis line
low.
Do not
HDMI/DVI
I2C CTRLDATA
if DDI3_DDC_AUX_SEL
pulled
high
pull this line high on the Carrier Board.
Connect 90Ω
connector
Connect 90Ω
connector
Connect 90Ω
connector
Connect 90Ω
connector
Connect 90Ω
connector
Connect 90Ω
connector
Connect 90Ω
connector
Connect 90Ω
connector
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
@100MHz Common Choke in series and ESD suppressors to GND to USB
18
DDI Hot-Plug Detect
Selects
thetransmit
functionsignal
of DDI3_CTRLCLK_AUX+
DDI3_CTRLDATA_AUX-.
Additional
differential pairs for and
the SuperSpeed
USB data path.
DDI[n]_DDC_AUX_SEL shall be pulled to 3.3V on the Carrier with a 100K Ohm
resistor
to receive
configure
the DDI[n]_AUX
pair for
as the
channel.USB data path.
Additional
signal
differential pairs
the DDC
SuperSpeed
Carrier DDI[n]_DDC_AUX_SEL should be connected to pin 13 of the DisplayPort
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Additional receive signal differential pairs for the SuperSpeed USB data path.
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Additional receive signal differential pairs for the SuperSpeed USB data path.
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Additional receive signal differential pairs for the SuperSpeed USB data path.
www.dfi.com
USB_6_7_OC#
A38
USB_SSTX0+
D4
USB_SSTX0D3
USB_SSRX0+
C4
USB_SSRX0C3
USB_SSTX1+
D7
USB_SSTX1D6
USB_SSRX1+
C7
USB_SSRX1C6
USB_SSTX2+
USB Signals and DescriptionsD10
USB_SSTX2D9
Signal
Pin#
USB_SSRX2+
C10
USB0+
A46
USB_SSRX2C9
USB0A45
USB_SSTX3+
D13
USB1+
B46
USB_SSTX3D12
USB1B45
USB_SSRX3+
C13
USB2+
A43
USB_SSRX3C12
USB2A42
USB3+
B43
USB3B42
LVDS Signals and Descriptions
Signal
Pin#
USB4+
A40
USB4A39
LVDS_A0+
A71
USB5+
B40
LVDS_A0A72
USB5B39
LVDS_A1+
A73
USB6+
A37
LVDS_A1A74
USB6A36
LVDS_A2+
A75
USB7+
B37
USB7B36
LVDS_A2A76
LVDS_A3+
A78
LVDS_A3USB_0_1_OC#
LVDS_A_CK+
LVDS_A_CKLVDS_B0+
LVDS_B0USB_2_3_OC#
LVDS_B1+
LVDS_B1LVDS_B2+
LVDS_B2USB_4_5_OC#
LVDS_B3+
A79
B44
A81
A82
B71
B72
A44
B73
B74
B75
B76
B38
B77
LVDS_B3B78
LVDS_B_CK+
B81
LVDS_B_CKB82
LVDS_VDD_EN
A77
USB_6_7_OC#
A38
LVDS_BKLT_EN
B79
LVDS_BKLT_CTRL
B83
USB_SSTX0+
D4
LVDS_I2C_CK
A83
USB_SSTX0D3
LVDS_I2C_DAT
A84
USB_SSRX0+
C4
USB_SSRX0LPC Signals and Descriptions C3
USB_SSTX1+
D7
Signal
Pin#
USB_SSTX1D6
LPC_AD0
B4
USB_SSRX1+
C7
LPC_AD1
B5
USB_SSRX1C6
LPC_AD2
B6
USB_SSTX2+
D10
LPC_AD3
B7
USB_SSTX2D9
LPC_FRAME#
B3
USB_SSRX2+
C10
LPC_DRQ0#
B8
USB_SSRX2C9
LPC_DRQ1#
B9
USB_SSTX3+
D13
LPC_SERIRQ
A50
USB_SSTX3D12
LPC_CLK
B10
USB_SSRX3+
C13
USB_SSRX3SPI Signals and Descriptions C12
I CMOS
3.3V Suspend/3.3V
O PCIE
AC coupled on Module
I PCIE
AC coupled off Modul
O PCIE
AC coupled on Module
I PCIE
AC coupled off Modul
O PCIE
Module Pin Type
AC coupled on Module
Pwr Rail /Tolerance
II/O
PCIE
USB
AC
coupled
off Modul
3.3V
Suspend/3.3V
O
I/OPCIE
USB
AC
coupled
on Module
3.3V
Suspend/3.3V
II/O
PCIE
USB
AC
coupled
off Modul
3.3V
Suspend/3.3V
I/O USB
3.3V Suspend/3.3V
Module Pin Type
I/O USB
O LVDS
I/O USB
Pwr Rail /Tolerance
3.3V Suspend/3.3V
LVDS
3.3V Suspend/3.3V
O LVDS
I/O USB
LVDS
3.3V Suspend/3.3V
I/OLVDS
USB
O
3.3V Suspend/3.3V
LVDS
O LVDS
I CMOS
LVDS
3.3V Suspend/3.3V
O LVDS
LVDS
O LVDS
I CMOS
LVDS
3.3V Suspend/3.3V
O LVDS
LVDS
O LVDS
LVDS
I CMOS
O LVDS
3.3V Suspend/3.3V
LVDS
O LVDS
LVDS
O
CMOS
I CMOS
O CMOS
O CMOS
I/O
OD CMOS
O PCIE
I/O OD CMOS
3.3V /Suspend/3.3V
3.3V
3.3V / 3.3V
3.3V / 3.3V
3.3V
/ 3.3V on Module
AC coupled
3.3V / 3.3V
I PCIE
AC coupled off Modul
Module
O PCIE Pin Type
Pwr
Rail /Tolerance
AC coupled
on Module
I PCIE
I/O
CMOS
AC coupled
3.3V
/ 3.3V off Modul
O PCIE
O CMOS
AC coupled on Module
3.3V / 3.3V
PCIE
II CMOS
AC coupled
3.3V
/ 3.3V off Modul
I/O
CMOS
O PCIE
O CMOS
3.3V
/ 3.3V on Module
AC coupled
3.3V / 3.3V
I PCIE
AC coupled off Modul
Signal
SPI_CS#
SPI_MISO
SPI_MOSI
SPI_CLK
Pin#
B97
A92
A95
A94
Module Pin Type
O CMOS
I CMOS
O CMOS
O CMOS
Pwr Rail /Tolerance
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
SPI_POWER
A91
O
3.3V Suspend/3.3V
BIOS_DIS0#
PU 10k to 3V3_DU
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
AC Coupling
capacitor
SU968
AC Coupling capacitor
AC Coupling capacitor
SU968
USB over-current sense, USB channels 6 and 7. A pull-up for this line
shall be present on the Module. An open drain driver from a USB
current monitor on the Carrier Board may drive this line low. Do not
pull this line high on the Carrier Board.
Chapter 3
Connect to Overcurrent of USB Power Switch
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Carrier Board
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Board
Connect 90Ω @100MHz Common ChokeCarrier
in series
and ESD suppressors to GND to USB
Connect
connectorto LVDS connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connectorto LVDS connector
Connect
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
Connect to
LVDS
connector
90Ω
@100MHz
Common Choke in series and ESD suppressors to GND to USB
connector
Connect to Overcurrent of USB Power Switch
Connect to LVDS connector
Connect to Overcurrent of USB Power Switch
Connect to LVDS connector
PU 10k to 3V3_DU
Connect to
to LVDS
Overcurrent
of USB Power Switch
Connect
connector
Connect to LVDS connector
Connect to LVDS connector
PU 10k to 3V3_DU
AC PU
Coupling
4.7K tocapacitor
3.3V
AC PU
Coupling
4.7K tocapacitor
3.3V
AC Coupling
capacitor
SU968
AC Coupling capacitor
AC Coupling capacitor
AC Coupling capacitor
PU 10K to 3.3V
PU 10K to 3.3V
AC PU
Coupling
10K tocapacitor
3.3V
AC Coupling capacitor
Connect to enable
control
LVDS
panel
power circuit
Overcurrent
of of
USB
Power
Switch
Connect to enable control of LVDS panel backlight power circuit.
Connect to brightness control of LVDS panel backlight power circuit.
Connect to
90Ω
@100MHz
Common
Choke in series and ESD suppressors
Connect
DDC
clock of LVDS
panel
connectorto DDC data of LVDS panel
Connect
Connect 90Ω @100MHz Common Choke in series and ESD suppressors
connector
Connect 90Ω @100MHz Common ChokeCarrier
in series
and ESD suppressors
Board
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors
connectorto LPC device
Connect
Connect 90Ω @100MHz Common Choke in series and ESD suppressors
connector
Connect 90Ω @100MHz Common Choke in series and ESD suppressors
NC
connector
NC
Connect 90Ω @100MHz Common Choke in series and ESD suppressors
Connect
connectorto LPC device
to GND to USB
to GND to USB
to GND to USB
to GND to USB
to GND to USB
to GND to USB
to GND to USB
Connect 90Ω @100MHz Common Choke in series and ESD suppressors to GND to USB
connector
SU968
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Additional receive signal differential pairs for the SuperSpeed USB data path.
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Description
Additional
receive
signal
USB differential
pairs
0 differential pairs for the SuperSpeed USB data path.
Additional
transmit
signal
USB differential
pairs
1 differential pairs for the SuperSpeed USB data path.
Additional
receive
signal
USB differential
pairs
2 differential pairs for the SuperSpeed USB data path.
USB differential pairs 3
Description
USB differential pairs 4
LVDS Channel A differential pairs
Ther LVDS flat panel differential pairs (LVDS_A[0:3]+/-, LVDS_B[0:3]+/-. LVDS_A_CK+/-,
USB differential pairs 5
LVDS_B_CK+/-) shall have 100Ω terminations across the pairs at the destination. These
terminations may be on the Carrier Board if the Carrier Board implements a LVDS deserializer
USB differential pairs 6
on-board
USB differential pairs 7
USB over-current sense, USB channels 2 and 3. A pull-up for this line
shall be present on the Module. An open drain driver from a USB
LVDS
Channel
differential
pairs
current
monitorB on
the Carrier
Board may drive this line low. Do not
Ther
LVDS
panel
differential
pairs (LVDS_A[0:3]+/-, LVDS_B[0:3]+/-. LVDS_A_CK+/-,
pull this
lineflat
high
on the
Carrier Board.
LVDS_B_CK+/-) shall have 100Ω terminations across the pairs at the destination. These
USB
over-current
sense,
USB
channels
4 and
5. Carrier
A pull-up
for this
line
terminations may be on the Carrier Board
if the
Board
implements
a LVDS deserializer
shall be present on the Module. An open drain driver from a USB
on-board
current monitor on the Carrier Board may drive this line low. Do not
pull this line high on the Carrier Board.
Connect to LVDS connector
PU 10k to 3V3_DU
Additional receive signal differential pairs for the SuperSpeed USB data path.
USB over-current sense, USB channels 0 and 1. A pull-up for this line
shall be present on the Module. An open drain driver from a USB
current monitor on the Carrier Board may drive this line low. Do not
pull this
line high
on the Carrier
LVDS
Channel
A differential
clockBoard.
Connect to LVDS connector
PU 10k to 3V3_DU
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Carrier Board
Connect to Carrier Board SPI Device CS# pin
Connect a series resistor 33Ω to Carrier Board SPI Device SO pin
Connect a series resistor 33Ω to Carrier Board SPI Device SI pin
Connect a series resistor 33Ω to Carrier Board SPI Device SCK pin
LVDS
Channel B differential
USB over-current
sense, USBclock
channels 6 and 7. A pull-up for this line
shall be present on the Module. An open drain driver from a USB
LVDS panel power enable
current monitor on the Carrier Board may drive this line low. Do not
LVDS panel backlight enable
pull this line high on the Carrier Board.
LVDS panel backlight brightness control
I2C
clock output
forsignal
LVDS differential
display usepairs for the SuperSpeed USB data path.
Additional
transmit
I2C data line for LVDS display use
Additional receive signal differential pairs for the SuperSpeed USB data path.
Description
Additional transmit signal differential pairs for the SuperSpeed USB data path.
Additional
receiveaddress,
signal differential
pairsdata
for the
LPC
multiplexed
command and
busSuperSpeed USB data path.
Additional transmit signal differential pairs for the SuperSpeed USB data path.
LPC frame indicates the start of an LPC cycle
Additional
receive
signal differential pairs for the SuperSpeed USB data path.
LPC
serial DMA
request
LPC
serial interrupt
Additional
transmit signal differential pairs for the SuperSpeed USB data path.
LPC clock output - 24MHz nominal
Additional receive signal differential pairs for the SuperSpeed USB data path.
Description
Chip select for Carrier Board SPI - may be sourced from chipset SPI0 or SPI1
Data in to Module from Carrier SPI
Data out from Module to Carrier SPI
Clock from Module to Carrier SPI
Power supply for Carrier Board SPI – sourced from Module – nominally
3.3V. The Module shall provide a minimum of 100mA on SPI_POWER.
Carriers shall use less than 100mA of SPI_POWER. SPI_POWER
shall only be used to power SPI devices on the Carrier
Selection straps to determine the BIOS boot device.
The Carrier should only float these or pull them low, please refer to
COM Express Module Base Specification Revision 2.1 for strapping options of BIOS disable signals.
A34
BIOS
DIS1#
I CMOS
BIOS_DIS1#
NA
B88
BIOS
DIS0#
Chipset
SPI CS1#
Destination
Chipset
SPI CS0#
Destination
1
1
Module
1
0
Module
0
1
Module
Carrier
0
0
Carrier
(Default)
Module
(Default)
Carrier
SPI_CS#
SPI
Descriptor
Module
High
Module
High
SPI0
SPI1
(Default)
Bios
Entry
Ref
Line
Module
SPI0/SPI1
0
Module
Carrier FWH
1
Carrier
SPI0/SPI1
2
Module
(Default)
SPI0/SPI1
(Default)
3
19
Chapter 3 Hardware Installation
www.dfi.com
Chapter 3
VGA Signals and Descriptions
Signal
VGA_RED
VGA_GRN
VGA_BLU
VGA_HSYNC
VGA_VSYNC
VGA_I2C_CK
VGA_I2C_DAT
Pin#
B89
B91
B92
B93
B94
B95
B96
Serial Interface Signals and Descriptions
Module Pin Type
O Analog
O Analog
O Analog
O CMOS
O CMOS
I/O OD CMOS
I/O OD CMOS
Pwr Rail /Tolerance
Analog
Analog
Analog
3.3V / 3.3V
3.3V / 3.3V
3.3V / 3.3V
3.3V / 3.3V
PU 2.2K to 3.3V
PU 2.2K to 3.3V
SU968
Signal
Pin#
Module Pin Type
Pwr Rail /Tolerance
SER0_TX
A98
O CMOS
3.3V/5V
SER0_RX
A99
I CMOS
3.3V/5V
SER1_TX
A101
O CMOS
3.3V/5V
SER1_RX
A102
I CMOS
3.3V/5V
Miscellaneous Signal and Descriptions
SU968
PD 150 to GND
PD 150 to GND
PD 150 to GND
Carrier Board
PD 150R,connect to VGA connector with EMI filter & ESD protect component.
PD 150R,connect to VGA connector with EMI filter & ESD protect component.
PD 150R,connect to VGA connector with EMI filter & ESD protect component.
Connect to VGA connector with a3.3V Buffer IC to isolate PCH & Display Device
Connect to VGA connector with a 33V Buffer IC to isolate PCH & Display Device
Connect to VGA connector with a 3.3V to 5V Level shift circuit.
Connect to VGA connector with a 3.3V to 5V Level shift circuit.
Carrier Board
Description
General purpose serial port 0 transmitter
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
General purpose serial port 0 receiver
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
General purpose serial port 1 transmitter
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
General purpose serial port 1 receiver
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
Carrier Board
Description
General purpose I2C port clock output
General purpose I2C port data I/O line
PD 4.7K to GND
PU 10K to 3.3V
PD 4.7K to GND
PU 10K to 3.3V
Signal
I2C_CK
I2C_DAT
Pin#
B33
B34
Module Pin Type
I/O OD CMOS
I/O OD CMOS
Pwr Rail /Tolerance
3.3V Suspend/3.3V
3.3V Suspend/3.3V
SPKR
B32
O CMOS
3.3V / 3.3V
Output for audio enunciator - the "speaker" in PC-AT systems.
This port provides the PC beep signal and is mostly intended for
debugging purposes.
WDT
B27
O CMOS
3.3V / 3.3V
Output indicating that a watchdog time-out event has occurred.
FAN_PWNOUT
B101
O OD CMOS
3.3V / 3.3V
Fan speed control. Uses the Pulse Width Modulation (PWM) technique to control the fan's RPM.
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
FAN_TACHIN
B102
I OD CMOS
3.3V / 3.3V
TPM_PP
A96
I CMOS
3.3V / 3.3V
Power and System Management Signals and Descriptions
Signal
Pin#
Module Pin Type
Pwr Rail /Tolerance
SU968
PU 2.2K to 3V3_DU_EC
PU 2.2K to 3V3_DU_EC
Description
Red for monitor. Analog output
Green for monitor. Analog output
Blue for monitor. Analog output
Horizontal sync output to VGA monitor
Vertical sync output to VGA monitor
DDC clock line (I2C port dedicated to identify VGA monitor capabilities)
DDC data line.
Fan tachometer input for a fan with a two pulse output.
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
PU 47K to 3V3
Trusted Platform Module (TPM) Physical Presence pin. Active high.
TPM chip has an internal pull down. This signal is used to indicate
Physical Presence to the TPM.
SU968
Carrier Board
Description
PU 4.7K to 3V3_SB
A falling edge creates a power button event. Power button events can
be used to bring a system out of S5 soft off and other suspend states,
as well as powering the system down.
NC PU 4.7K to 3V3_SB
Reset button input. Active low request for Module to reset and reboot.
May be falling edge sensitive. For situations when SYS_RESET# is
not able to reestablish control of the system, PWR_OK or a power
cycle may be used.
PWRBTN#
B12
I CMOS
3.3V Suspend/3.3V
PU 10K to 3V3_DU_EC
SYS_RESET#
B49
I CMOS
3.3V Suspend/3.3V
PU 10K to 3V3_DU
CB_RESET#
B50
O CMOS
3.3V Suspend/3.3V
PD 100K to GND
Reset output from Module to Carrier Board. Active low. Issued by
Module chipset and may result from a low SYS_RESET# input, a low
PWR_OK input, a VCC_12V power input that falls below the minimum
specification, a watchdog timeout, or may be initiated by the Module
software.
PWR_OK
B24
I CMOS
3.3V / 3.3V
PU 10K to 3V3
Power OK from main power supply. A high value indicates that the
power is good. This signal can be used to hold off Module startup to
allow Carrier based FPGAs or other configurable devices time to be
programmed.
SUS_STAT#
B18
O CMOS
3.3V Suspend/3.3V
SUS_S3#
A15
O CMOS
3.3V Suspend/3.3V
PD 100K to GND
Indicates system is in Suspend to RAM state. Active low output. An
inverted copy of SUS_S3# on the Carrier Board may be used to
enable the non-standby power on a typical ATX supply.
SUS_S4#
A18
O CMOS
3.3V Suspend/3.3V
PD 100K to GND
Indicates system is in Suspend to Disk state. Active low output.
SUS_S5#
A24
O CMOS
3.3V Suspend/3.3V
PD 100K to GND
Indicates system is in Soft Off state.
WAKE0#
B66
I CMOS
3.3V Suspend/3.3V
PU 1K to 3V3_DU
PCI Express wake up signal.
WAKE1#
B67
I CMOS
3.3V Suspend/3.3V
NA
BATLOW#
A27
I CMOS
3.3V Suspend/ 3.3V
PU 10K to 3V3_DU
LID#
A103
I OD CMOS
3.3V Suspend/12V
PU 47K to 3V3_DU_EC
LID switch. Low active signal used by the ACPI operating system for a LID switch.
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
SLEEP#
B103
I OD CMOS
3.3V Suspend/12V
PU 10K to 3V3_DU
Sleep button. Low active signal used by the ACPI operating system to bring the
system to sleep state or to wake it up again.
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
THRM#
THRMTRIP#
SMB_CK
B35
A35
B13
I CMOS
O CMOS
I/O OD CMOS
3.3V / 3.3V
3.3V / 3.3V
3.3V Suspend/3.3V
PU 4.7K to 3V3
PU 10K to 3.3V
PU 2.2K to 3V3_DU_EC
SMB_DAT
B14
I/O OD CMOS
3.3V Suspend/3.3V
PU 2.2K to 3V3_DU_EC
SMB_ALERT#
B15
I CMOS
3.3V Suspend/3.3V
PU 2.2K to 3V3_DU_EC
Chapter 3 Hardware Installation
Indicates imminent suspend operation; used to notify LPC devices.
General purpose wake up signal. May be used to implement wake-up
on PS2 keyboard or mouse activity.
Indicates that external battery is low.
This port provides a battery-low signal to the Module for orderly
transitioning to power saving or power cut-off ACPI modes.
Input from off-Module temp sensor indicating an over-temp situation.
Active low output indicating that the CPU has entered thermal shutdown.
System Management Bus bidirectional clock line.
20
System Management Bus bidirectional data line.
System Management Bus Alert – active low input can be used to
generate an SMI# (System Management Interrupt) or to wake the system.
www.dfi.com
SUS_STAT#
B18
O CMOS
3.3V Suspend/3.3V
WDT
SUS_S3#
B27
A15
O CMOS
O CMOS
3.3V / 3.3V
3.3V Suspend/3.3V
PD 100K to GND
FAN_PWNOUT
SUS_S4#
B101
A18
O OD CMOS
O CMOS
3.3V / 3.3V
3.3V Suspend/3.3V
PD 100K to GND
SUS_S5#
FAN_TACHIN
WAKE0#
A24
B102
B66
CMOS
IOOD
CMOS
I CMOS
3.3V /Suspend/3.3V
3.3V
3.3V
3.3V Suspend/3.3V
PD
to 3V3
GND
PU100K
47K to
PU 1K to 3V3_DU
WAKE1#
TPM_PP
B67
A96
I CMOS
3.3V /Suspend/3.3V
3.3V
NA
PU 10K to 3V3_DU
A27
Power and System Management
Signals andI CMOS
Descriptions
3.3V Suspend/ 3.3V
Signal
BATLOW#
Pin#
Module Pin Type
Pwr Rail /Tolerance
SU968
LID#
PWRBTN#
A103
B12
I OD CMOS
I CMOS
3.3V Suspend/12V
3.3V Suspend/3.3V
PU 47K to 3V3_DU_EC
PU 10K to 3V3_DU_EC
SLEEP#
B103
I OD CMOS
3.3V Suspend/12V
SYS_RESET#
THRM#
THRMTRIP#
SMB_CK
B49
B35
A35
B13
I CMOS
I CMOS
O CMOS
I/O OD CMOS
3.3V
3.3V
3.3V
3.3V
Suspend/3.3V
/ 3.3V
/ 3.3V
Suspend/3.3V
PU 10K to 3V3_DU
PU 4.7K to 3V3
PU 10K to 3.3V
PU 2.2K to 3V3_DU_EC
SMB_DAT
CB_RESET#
SMB_ALERT#
B14
B50
B15
I/O OD CMOS
O CMOS
I CMOS
3.3V Suspend/3.3V
3.3V Suspend/3.3V
3.3V Suspend/3.3V
PU 2.2K to 3V3_DU_EC
PD 100K to GND
PU 2.2K to 3V3_DU_EC
Pin#
B24
A93
B54
B57
B18
B63
A54
A15
A63
A67
A18
A85
IModule
CMOS Pin Type
Pwr Rail
/Tolerance
3.3V
/ 3.3V
SU968
PU 10K
to 3V3
O CMOS
O CMOS
3.3V / 3.3V
3.3V Suspend/3.3V
O CMOS
I CMOS
3.3V Suspend/3.3V
3.3V / 3.3V
O CMOS
3.3V Suspend/3.3V
GPIO Signals Descriptions
Signal
PWR_OK
GPO0
GPO1
GPO2
SUS_STAT#
GPO3
GPI0
SUS_S3#
GPI1
GPI2
SUS_S4#
GPI3
SUS_S5#
Power
WAKE0#
Signal
WAKE1#
A24
and GND Signal Descriptions
B66
Chapter 3
Carrier Board
O CMOS
3.3V Suspend/3.3V
I CMOS
Module Pin Type
I CMOS
3.3V Suspend/3.3V
Pwr Rail /Tolerance
3.3V Suspend/3.3V
PU 1K to 3V3_DU
SU968
NA
I CMOS
3.3V Suspend/ 3.3V
PU 10K to 3V3_DU
3.3V Suspend/12V
PU 47K to 3V3_DU_EC
Fan
tachometer
fanstate.
with a two pulse output.
Indicates
systeminput
is in for
Softa Off
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
PCI Express wake up signal.
Trusted
Module
pin. Activewake-up
high.
General Platform
purpose wake
up(TPM)
signal.Physical
May be Presence
used to implement
TPM
chip
has an internal
pull
down. This signal is used to indicate
on PS2
keyboard
or mouse
activity.
Physical Presence to the TPM.
Indicates that external battery is low.
This port provides a battery-low signal to the Module for orderly
transitioning to power saving or power cut-off ACPI modes.
Description
LID
switch.
Low
activeasignal
by the
ACPI
operating
A
falling
edge
creates
powerused
button
event.
Power
buttonsystem
eventsfor
cana LID switch.
(Recommend
Protecting
Signals
on Pinsstates,
Reclaimed from VCC_12V)
be
used to bringadd
a system
out of Logic
S5 softLevel
off and
other suspend
as well as powering the system down.
Sleep button. Low active signal used by the ACPI operating system to bring the
Reset
input.
Active
request
for Module to reset and reboot.
systembutton
to sleep
state
or tolow
wake
it up again.
May
be falling edge
ForLogic
situations
when
SYS_RESET#
is
(Recommend
add sensitive.
Protecting
Level
Signals
on Pins Reclaimed
from VCC_12V)
not able to reestablish control of the system, PWR_OK or a power
Input may
frombe
off-Module
temp sensor indicating an over-temp situation.
cycle
used.
Active low output indicating that the CPU has entered thermal shutdown.
Reset
from Module
to Carrier Board.
Systemoutput
Management
Bus bidirectional
clock Active
line. low. Issued by
Module
and may
from a low
input, a low
System chipset
Management
Busresult
bidirectional
dataSYS_RESET#
line.
PWR_OK input, a VCC_12V power input that falls below the minimum
System Management Bus Alert – active low input can be used to
specification, a watchdog timeout, or may be initiated by the Module
generate an SMI# (System Management Interrupt) or to wake the system.
software.
PU 4.7K to 3V3_SB
PU 10K to 3V3_DU
PU 100K to 3.3V
PD 100K to GND
PU 100K to 3.3V
PU 100K to 3.3V
PD
PU 100K
100K to
to GND
3.3V
PD 100K to GND
Indicates imminent suspend operation; used to notify LPC devices.
debugging purposes.
Indicates system is in Suspend to RAM state. Active low output. An
Output indicating that a watchdog time-out event has occurred.
inverted copy of SUS_S3# on the Carrier Board may be used to
Fan
speed
Uses power
the Pulse
Width
Modulation
(PWM) technique to control the fan's RPM.
enable
the control.
non-standby
on a
typical
ATX supply.
(Recommend
LevelActive
Signals
Pins Reclaimed from VCC_12V)
Indicates systemadd
is inProtecting
Suspend toLogic
Disk state.
lowon
output.
NC PU 4.7K to 3V3_SB
Carrier Board
Power OK from main power supply. A high value indicates that the
power is good. This signal can be used to hold off Module startup to
Description
allow Carrier based FPGAs or other configurable devices time to be
programmed.
General purpose output pins.
Upon a hardware
reset, these
outputs
beLPC
low.
Indicates
imminent suspend
operation;
usedshould
to notify
devices.
Indicates system is in Suspend to RAM state. Active low output. An
inverted copy of SUS_S3# on the Carrier Board may be used to
General purpose input pins.
enable the non-standby power on a typical ATX supply.
Pulled high internally on the Module.
Indicates system is in Suspend to Disk state. Active low output.
Indicates system is in Soft Off state.
BATLOW#
VCC_5V_SBY
LID#
B84~B87
A103
Power
I OD CMOS
VCC_RTC
A47
Power
SLEEP#
B103
I OD CMOS
3.3V Suspend/12V
PU 10K to 3V3_DU
THRM#
THRMTRIP#
SMB_CK
B35
A1, A11, A21, A31,
A35
A41, A51, A57, A60,
B13
A66, A70, A80, A90,
A100, A110, B1,
B14
B11, B21 ,B31, B41,
B15
B51, B60, B70, B80,
B90, B100, B110,
C1, C2, C5, C8, C11,
C14, C21, C31, C41,
C51, C60, C70, C73,
C76, C80, C84, C87,
C90, C93, C96,
C100, C103, C110,
D1, D2, D5, D8,
D11, D14, D21, D31,
D51, D60, D67, D70,
D73, D76, D80, D84,
D87, D90, D93, D96,
D100, D103, D110
I CMOS
O CMOS
I/O OD CMOS
3.3V / 3.3V
3.3V / 3.3V
3.3V Suspend/3.3V
PU 4.7K to 3V3
PU 10K to 3.3V
PU 2.2K to 3V3_DU_EC
Input from off-Module temp sensor indicating an over-temp situation.
Active low output indicating that the CPU has entered thermal shutdown.
System Management Bus bidirectional clock line.
I/O OD CMOS
3.3V Suspend/3.3V
PU 2.2K to 3V3_DU_EC
I CMOS
3.3V Suspend/3.3V
PU 2.2K to 3V3_DU_EC
System Management Bus bidirectional data line.
System Management Bus Alert – active low input can be used to
generate an SMI# (System Management Interrupt) or to wake the system.
VCC_12V
SMB_DAT
SMB_ALERT#
GND
Carrier Board
PCI Express wake up signal.
Description
General purpose wake up signal. May be used to implement wake-up
on PS2 keyboard or mouse activity.
Primary power input: +12V nominal. All available VCC_12V pins on the connector(s) shall be used.
Indicates that external battery is low.
This port provides a battery-low signal to the Module for orderly
Standby power
input: +5.0V
VCC5_SBY
used, all
transitioning
to power
saving nominal.
or powerIfcut-off
ACPI is
modes.
available VCC_5V_SBY pins on the connector(s) shall be used. Only
LID
Low active
signal used
by theMay
ACPIbeoperating
system for
usedswitch.
for standby
and suspend
functions.
left unconnected
if a LID switch.
(Recommend
Protecting
Logic
Level
Signals on Pins Reclaimed from VCC_12V)
these functions add
are not
used in the
system
design.
Pin#
A104~A109
B67
B104~B109
C104~C109
D104~D109
A27
Power
Real-time clock circuit-power input. Nominally +3.0V.
Sleep button. Low active signal used by the ACPI operating system to bring the
system to sleep state or to wake it up again.
(Recommend add Protecting Logic Level Signals on Pins Reclaimed from VCC_12V)
Ground - DC power and signal and AC signal return path.
All available GND connector pins shall be used and tied to Carrier
Board GND plane.
Power
21
Chapter 3 Hardware Installation
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Chapter 3
Standby Power LED
Cooling Option
Heat Sink
Note:
The system board used in the following illustrations may not resemble the actual
board. These illustrations are for reference only.
Top View of the Heat Sink
Standby
Power LED
This LED will be lit when the system is in standby mode.
1
1
Bottom View of the Heat Sink
• “1” denotes the location of the thermal pad designed to contact the corresponding
components that are on the SU968.
Important:
Remove the plastic covering from the thermal pads prior to mounting the heat sink
onto the SU968.
22
Chapter 3 Hardware Installation
www.dfi.com
Chapter 3
Installing SU968 onto a Carrier Board
Important:
The carrier board (COM332-B) and COM Express module used in this section are for
reference purpose only and may not resemble you carrier board and the acutal SU968
module. These illustrations are mainly to guide you on how to install SU968 onto the
carrier board of your choice.
COM Express connectors on the
carrier board
1. Install the module and heat sink assembly onto the carrier board. The photo below shows
the location of the mounting holes on the carrier board.
Mounting standoffs
3. Press SU968 down firmly to seat it in the COM Express connectors of the carrier board.
Pressing points
2. Grasp SU968 by its edges and position it on top of the carrier board with the mounting
holes of SU968 aligning with the standoffs on the carrier board. This will also align the
COM Express connectors of the two boards to each other.
COM Express connectors on SU968
Note:
The illustration above shows the pressing points of the module onto the carrier board.
Be careful when pressing the module to avoid damages to the connectors.
23
Chapter 3 Hardware Installation
www.dfi.com
Chapter 3
4. Verify that SU968 is firmly seated in the COM Express connectors of the carrier
board.
Carrier board
SU968
5. Install a heat sink onto the SU968 with the carrier board. The photo below shows the heat
sink installed on SU968.
24
Chapter 3 Hardware Installation
www.dfi.com
Chapter 3
Installing the COM Express Debug Card
2. Connect the COMe-DEBUG card to COMe-LINK1 via a cable.
COMe-DEBUG
Note:
The system board used in the following illustrations may not resemble the actual
board. These illustrations are for reference only.
Code Review
Control
1. COMe-LINK1 is the COM Express debug card designed for COM Express Compact modules
to debug and display signals and codes of COM Express modules.
Port 80 Display
LPC
COMe-LINK1/2
Connector
COMe-LINK1
COMe-DEBUG Connector
COM Express
Type Display
COM Express
Signal Display
COM Express
Power Display
Power/Reset/
Sleep/LID control
COM Express
Connectors
Cable
Top view
COMe-DEBUG
COMe-LINK1
COM Express
Connectors
Bottom view
25
Chapter 3 Hardware Installation
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Chapter 3
3. Use the provided screws to fix the COMe-LINK1 debug card onto the carrier board.
Screws
COMe-LINK1
Carrier Board
COMe-DEBUG
4. Then use the instructions from the previous section to install SU968 and heat sink on the
top of the COMe-LINK1 debug card.
BW968
COMe-LINK1
Carrier Board
Side View of the Module, Debug Card and Carrier Board
26
Chapter 3 Hardware Installation
www.dfi.com
Chapter 4
Chapter 4 - BIOS Setup
Legends
Overview
The BIOS is a program that takes care of the basic level of communication between the CPU
and peripherals. It contains codes for various advanced features found in this system board.
The BIOS allows you to configure the system and save the configuration in a battery-backed
CMOS so that the data retains even when the power is off. In general, the information stored
in the CMOS RAM of the EEPROM will stay unchanged unless a configuration change has been
made such as a hard drive replaced or a device added.
It is possible that the CMOS battery will fail causing CMOS data loss. If this happens, you need
to install a new CMOS battery and reconfigure the BIOS settings.
Note:
The BIOS is constantly updated to improve the performance of the system board;
therefore the BIOS screens in this chapter may not appear the same as the actual
one. These screens are for reference purpose only.
Default Configuration
KEYs
Function
Right and Left Arrows
Moves the highlight left or right to select a
menu.
Up and Down Arrows
Moves the highlight up or down between
submenus or fields.
<Esc>
Exits to the BIOS setup utility
<F1>
Displays general help
<F5/F6>
Changes the highlighted value
<F9>
Changes to the default setup
<F10>
Saves and exits the setup program.
<Enter>
Press <Enter> to enter the highlighted
submenu
Most of the configuration settings are either predefined according to the Load Optimal Defaults
settings which are stored in the BIOS or are automatically detected and configured without
requiring any actions. There are a few settings that you may need to change depending on
your system configuration.
Entering the BIOS Setup Utility
Scroll Bar
The BIOS Setup Utility can only be operated from the keyboard and all commands are keyboard commands. The commands are available at the right side of each setup screen.
When a scroll bar appears to the right of the setup screen, it indicates that there are more
available fields not shown on the screen. Use the up and down arrow keys to scroll through all
the available fields.
Submenu
The BIOS Setup Utility does not require an operating system to run. After you power up the
system, the BIOS message appears on the screen and the memory count begins. After the
memory test, the message “Press DEL to run setup” will appear on the screen. If the message
disappears before you respond, restart the system or press the “Reset” button. You may also
restart the system by pressing the <Ctrl> <Alt> and <Del> keys simultaneously.
When ““ appears on the left of a particular field, it indicates that a submenu which contains
additional options are available for that field. To display the submenu, move the highlight to
that field and press <Enter>.
27
Chapter 4 BIOS Setup
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Chapter 4
Insyde BIOS Setup Utility
Advanced
Main
The Advanced menu allows you to configure your system for basic operation. Some entries are
defaults required by the system board, while others, if enabled, will improve the performance
of your system or let you set some features according to your preference.
The Main menu is the first screen that you will see when you enter the BIOS Setup Utility.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Project Name
BIOS Version
SU968
68.16A
Processor Type
EC Ver:
CPUID:
CPU Speed:
CPU Stepping:
L1 Data Cache:
L1 Instruction Cache:
L2 Cache:
L3 Cache:
Number of Processors:
Microcode Rev:
Intel(R) Celeron (R) CPU 3599U @2.00 GHz
V1.2
0x406E3 (SKYLAKE ULT ULX)
2000 MHz
03 (D0/K0 Stepping)
32 KB
32 KB
256 KB
2048 KB
2 Core(s) / 2 Thread(s)
0000006A
Total Memory
System Memory Speed
SODIMM 0
SODIMM 1
4096 MB
1600 MHz
4096 MB
[Not Installed]
PCH Rev / SKU
Intel ME Version / SKU
21 (C1 Stepping) / SKL PCH-LP (U) Premium
11.0.0. 1205 / CORPORATE
System Time
System Date
[05:18:30]
[05/14/2016]
Important:
Setting incorrect field values may cause the system to malfunction.
Rev. 5.0
This is the help for the
hour, minute, second
field. Valid range is from
0 to 23, 0 to 59, 0 to 59.
INCREASE/REDUCE:
+/-.
Main
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
Security
InsydeH20 Setup Utility
Boot
Exit
Rev. 5.0
ACPI Configuration Setting
ACPI Configuration
CPU Configuration
Video Configuration
Audio Configuration
SATA Configuration
USB Configuration
PCI Express Configuration
ME Configuration
MEBX Configuration
 Active Management Technology Support
 PC Health Status








F1 Help
Esc Exit
F1 Help
Esc Exit
Advanced
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F9 Setup Defaults
F10 Save and Exit
System Date
The date format is <month>, <date>, <year>. Month displays the month, from January to December. Date displays the date, from 1 to 31. Year displays the year, from
1980 to 2099.
System Time
The time format is <hour>, <minute>, <second>. The time is based on the 24-hour
military-time clock. For example, 1 p.m. is 13:00:00. Hour displays hours from 00 to
23. Minute displays minutes from 00 to 59. Second displays seconds from 00 to 59.
28
Chapter 4 BIOS Setup
www.dfi.com
Chapter 4
ACPI Settings
CPU Configuration
This section configures the ACPI settings.
This section configures the CPU.
InsydeH20 Setup Utility
Rev. 5.0
InsydeH20 Setup Utility
Advanced
ACPI Configuration
Wake on LAN
After G3
Rev. 5.0
Advanced
<Enabled>
<S0 State>
Determines the action taken when the system power
is off and a PCI Power
Management Enable wake
up event occurs.
CPU Configuration
Intel(R) SpeedStep(tm)
Turbo Mode
<Enabled>
<Enabled>
Enable/Disable CPU Power
Management. Allows CPU
to go to C states when it’s
not 100% utilized.
Intel(R) SpeedStep(tm)
Disabled
Enabled
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
Intel® SpeedStep™
This field is used to enable or disable the Enhanced Intel SpeedStep® Technology,
which helps optimize the balance between system’s power consumption and performance.
Wake on LAN
Set this field to enable the system to be waken up via the onboard LAN or via a LAN
card that supports the remote wake up function.
Turbo Mode
State After G3
This field is used to enable or disable processor turbo mode (requires that EMTTM
is enabled too), which allows the processor core to automatically run faster than the
base frequency when the processor’s power, temperature, and specification are within
the limits of TDP.
This field is to specify what state to go when power is re-applied after a power
failure (G3 state).
S0 State
Power on the system when power is re-applied after AC power loss.
S5 State
The system appears to be off when power is re-applied after AC power
loss.
29
Chapter 4 BIOS Setup
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Chapter 4
Video Configuration
Boot display
This section configures the video settings.
Set the display device combination during system booting.
Primary Display
InsydeH20 Setup Utility
InsydeH20 Setup Utility
Rev. 5.0
Advanced
Video Configuration
Keep IGFX enbled based
on the setup options.
Video Configuration
Internal Graphics
Always Enabled PEG
Boot display
Backlight Type
Panel Color Depth
LVDS Mode
LCD Panel Type
Rev. 5.0
Advanced
Internal Graphics
Always Enabled PEG
Boot display
Backlight Type
Panel Color Depth
LVDS Mode
LCD Panel Type
<Auto>
<Disabled>
<DP1+VGA>
<Normal + PWM Mode>
<48 Bit>
<PWM Mode>
<1024x768>
<Auto>
<Disabled>
<DP1+VGA>
<Auto>
<Normal
+ PWM Mode>
<Disabled>
<48
Bit>
<DP1+VGA>
<PWM
Mode>
<Normal
+ PWM Mode>
<1080x1024>
<48 Bit>
<PWM Mode>
<1280x1024>
Boot display
Choose display device
combination.
LVDS + DP1
LVDS + VGA
VGA + DP1
DP1 + VGA
Internal Graphics
Auto
Disabled
Enabled
F1 Help
Esc Exit
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F9 Setup Defaults
F10 Save and Exit
Internal Graphics
Backlight Type
Keep IGFX enabled or disabled based on the setup options.
Select the backlight type.
Always Enabled PEG
InsydeH20 Setup Utility
Enable or disable the PCIe graphics function.
Advanced
Backlight Type Setting.
Video Configuration
Internal Graphics
Always Enabled PEG
Boot display
Backlight Type
Panel Color Depth
LVDS Mode
LCD Panel Type
Rev. 5.0
<Auto>
<Disabled>
<DP1+VGA>
<Normal + PWM Mode>
<48 Bit>
<PWM Mode>
<1280x1024>
Backlight Type
Normal +PWM Mode
Normal +DC Mode
Invert +PWM Mode
Invert +DC Mode
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
30
Chapter 4 BIOS Setup
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Chapter 4
Panel Color Depth
Audio Configuration
Select the LFP panel color depth: 18 bit, 24 bit, 36 bit, and 48 bit.
This section configures the audio settings.
LVDS Mode
InsydeH20 Setup Utility
Rev. 5.0
Advanced
Select PTN3460 (eDP to LVDS bridge IC) LVDS Mode: PWM Mode and DC Mode
HD Audio
LCD Panel Type
Control Detection of the
HD-Audio device.
<Enabled>
Disabled = HDA will be
unconditionally disabled
Select the LCD panel type.
Enabled = HDA will be
unconditionally enabled
InsydeH20 Setup Utility
Rev. 5.0
Auto = HDA will be enabled if present, disabled
otherwise.
Advanced
Select LCD Panel Type
Video Configuration
Internal Graphics
Always Enabled PEG
Boot display
Backlight Type
Panel Color Depth
LVDS Mode
LCD Panel Type
<Auto>
<Disabled>
<DP1+VGA>
<Normal + PWM Mode>
<48 Bit>
<PWM Mode>
<1280x1024>
F1 Help
Esc Exit
LCD Panel Type
800x480
800x600
1024x768
1366x768
1280x1024
1920x1080
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
HD Audio
Control the detection of the high-definition audio device.
Disabled
The high-definition audio will be unconditionally disabled.
F9 Setup Defaults
F10 Save and Exit
Enabled
The high-definition audio will be unconditionally enabled.
Auto
The high-definition audio will be enabled if present and disabled otherwise.
31
Chapter 4 BIOS Setup
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Chapter 4
SATA Configuration
USB Configuration
This section configures the SATA controller.
This section configures the parameters of the USB devices.
InsydeH20 Setup Utility
InsydeH20 Setup Utility
Rev. 5.0
SATA Controller(s)
SATA Mode Selection
Serial ATA Port 0
Port 0
Serial ATA Port 1
Port 1
Serial ATA Port 2
Port 2
Serial ATA Port 3
Port 3
Rev. 5.0
Advanced
Advanced
[Not Installed]
[Not Installed]
[Not Installed]
[Not Installed]
<Enabled>
<AHCI>
Enable/Disable SATA
Device.
USB BIOS Support
USB keyboard/mouse/storage support under UEFI
and DOS environment. It
will supporting UEFI environment only if set to
UEFI only
<Enabled>
<Enabled>
<Enabled>
<Enabled>
USB BIOS Support
<Enabled>
Disabled
Enabled
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F1 Help
Esc Exit
F9 Setup Defaults
F10 Save and Exit
SATA Controller(s)
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
USB BIOS Support
This field is used to enable or disable Serial ATA devices.
Disabled
Disable the USB keyboard/mouse/storage support.
SATA Mode Selection
The mode selection configures the SATA controller(s).
Enabled
Enable the USB keyboard/mouse/storage support under UEFI and DOS environment.
AHCI Mode
This option allows the Serial ATA devices to use AHCI (Advanced Host Controller Interface).
RAID Mode
This option allows you to create RAID or Intel Matrix Storage configurations on Serial
ATA devices.
Serial ATA Port 0, 1, 2, and 3
This field is used to enable or disable each serial ATA port.
32
Chapter 4 BIOS Setup
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Chapter 4
PCI Express Configuration
Active Management Technology Support
This section configures settings of PCI Express root ports.
The section allows users to enable or disable the Intel® Active Management Technology (Intel®
AMT) BIOS extension. Please refer to Chapter 7- Intel AMT Settings for more information.
InsydeH20 Setup Utility
Rev. 5.0
Advanced








PCI
PCI
PCI
PCI
PCI
PCI
PCI
PCI
Express
Express
Express
Express
Express
Express
Express
Express
F1 Help
Esc Exit
Root
Root
Root
Root
Root
Root
Root
Root
Port
Port
Port
Port
Port
Port
Port
Port
↑/↓ Select Item
←/→ Select Item
InsydeH20 Setup Utility
PCI Express Root Port 1
Settings.
1
2
3
4
6
9
10
11
Enable/Disable Intel (R)
Active Management Technology BIOS Extension.
Note : iAMT H/W is always enabled. This option
just controls the BIOS
extension execution.
Active Management Technology Support
Intel AMT Support
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F1 Help
Esc Exit
PCI Express Root Ports
InsydeH20 Setup Utility
Rev. 5.0
Advanced
↑/↓ Select Item
←/→ Select Item
<Enabled>
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
Rev. 5.0
Advanced
PCI Express Root Port 1
PCIe Speed
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
<Enabled>
<AUTO>
F5/F6 Change Values
Enter Select  SubMenu
Control the PCI Express
Root Port.
F9 Setup Defaults
F10 Save and Exit
PCI Express Root Port
This field is used to enable or disable the PCI Express Root Port.
PCIe Speed
Select the speed of the PCI Express Root Port: Auto, Gen1, Gen2 or Gen3.
33
Chapter 4 BIOS Setup
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Chapter 4
ME Configuration
PC Health Status
This section configures flashing of Intel® Active Management Engine region.
This section configures the Embedded Controller (EC) settings.
InsydeH20 Setup Utility
InsydeH20 Setup Utility
Advanced
Me Fw Image Re-Flash
<Disabled>
COM Port 1
COM Port 2
WDT
PC Health Status
Un-configure MEto without
Enable/disable
flash
password.
ME
region
Me Fw Image Re-Flash
↑/↓ Select Item
←/→ Select Item
<Enabled>
<Enabled>
<Disable>
Configure Serial port using
options: [Disable] No Configuration [Enable] User
Configuration
COM Port 1
Disabled
Enabled
F1 Help
Esc Exit
Rev. 5.0
Advanced
Rev. 5.0
Disabled
Enabled
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
Me Fw Image Re-Flash
COM Port 1 and COM Port 2
Enable or disable flashing of the Intel® ME region.
Configure the settings of the serial ports.
F9 Setup Defaults
F10 Save and Exit
Disable Disable the serial port.
Enable
Enable the serial port.
34
Chapter 4 BIOS Setup
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Chapter 4
WDT
Security
Enable or disable the watchdog function. A counter will appear if you select to enable
WDT. Input any value between 1 to 255 seconds.
This section configures the trusted platform module (TPM) and storage security.
InsydeH20 Setup Utility
Rev. 5.0
Advanced
Main
COM Port 1
COM Port 2
WDT
COUNTER
PC Health Status
<Auto>
<Auto>
<Enable>
[38]
The time-out counter ranges from 1 to 255 seconds
in the second mode.
Advanced
Security
Current TPM Device
TPM State
TPM Availability
TPM Operation
Clear TPM
Supervisor Password
Set Supervisor Password
Set All Hdd Password
Set All Master Hdd Password
Storage
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
Password Setup Page
F1 Help
Esc Exit
F9 Setup Defaults
F10 Save and Exit
↑/↓ Select Item
←/→ Select Item
InsydeH20 Setup Utility
Boot
Exit
<TPM 1.2>
Enabled and Activated, Owned
<Available>
<No Operation>
[ ]
Not installed
Rev. 5.0
When Hidden, don’t exposes TPM to 0
TMP Availability
Available
Hidden
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
TPM Availability
PC Health Status
Show or hide the TPM availability and its configurations.
This screen displays PC health information.
InsydeH20 Setup Utility
TPM Operation
Enable or disable the TPM function. It displays the following options:
•
No Operation: No changes to the current state.
Rev. 5.0
Advanced
PC Health Status
Voltage
VCORE
VBAT
1V35_DDR3
VccGT
VCCSA
0.923
3.278
1.275
0.011
0.988
V
V
V
V
V
Disable: Disable and deactivate TPM.
•
Enable: Enable and activate TPM.
Clear TPM
Remove all TPM ownership contents.
Temperature
CPU (oC/oF)
82 C/ 179 F
Fan Speed
SYS FAN
CPU FAN
0 RPM
4956 RPM
F1 Help
Esc Exit
•
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
35
Chapter 4 BIOS Setup
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Chapter 4
Storage Password Setup Page
Set Master HDD Password
Enhance the HDD security by using a password.
Set a password for the master HDD.
Main
Advanced
InsydeH20 Setup Utility
Boot
Exit
Security
Rev. 5.0
Main
Storage Password List
Help
Storage Password Setup
ST3160023AS
↑ and ↓ to change option, ENTER to select the option, ESC to exit
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Device Name:
[ST3160023AS]
Security Mode :
No Accessed
Set Storage Password
Set Master Hdd Password
Enter New Password:
Enter New Password Again:
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F1 Help
Esc Exit
Set master HDD password and
suggest the length of password
greater than one character.
When security mode is lock,
input master HDD password to
unlock HDD.
Master HDD password is valid
when HDD password is set.
Set Master Hdd Password
F1 Help
Esc Exit
Rev. 5.0
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
Only pressing “Enter would clear
HDD password and make HDD
security diable when set new
master HDD password.
F9 Setup Defaults
F10 Save and Exit
Set Storage Password
Set Master Hdd Password
Set master HDD password. The length of password must be greater than one character.
When the security mode is set to Lock, input the master HDD password to unlock the HDD.
Clear the HDD password by pressing “Enter” to set HDD security to be disabled
and set a new master HDD password.
Set all HDD password. The length of the password must be greater than one character.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Device Name:
[ST3160023AS]
Security Mode :
No Accessed
Set Storage Password
Set Master Hdd Password
Set Storage Password
Enter New Password:
Enter New Password Again:
Rev. 5.0
Set HDD password and suggest
the length of password greater
than one character.
Security Mode Description:
Lock: HDD security status is
enable and lock.
Unlock: HDD security status is
enable and unlock.
Change: HDD security status is
unlock and user changed to the
new password.
Disable: Remove HDD password
from device.
No Accessed: HDD security
status is not enabled when entering SCU.
How to clear HDD password:
only press “Enter” when set new
password.
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
36
Chapter 4 BIOS Setup
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Chapter 4
Set Supervisor Password
Boot
Set the administrative passwords. The length of the password must be greater than
one character.
This section configures boot options.
Main
Main
Advanced
Security
Current TPM Device
TPM State
TPM Availability
TPM Operation
Clear TPM
Supervisor Password
Set Supervisor Password
InsydeH20 Setup Utility
Boot
Exit
<TPM 1.2>
Enabled and Activated, Owned
<Available>
<No Operation>
[X]
Not installed
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Rev. 5.0
Numlock
Boot Type
Netwok Stack
PXE Boot capability
USB Boot
Install or Change the password and the length of
password must be greater
than one character.
<On>
<Dual Boot Type>
<Disabled>
<Disabled>
<Enabled>
Rev. 5.0
Selects Power-on state for
Numlock
Set Supervisor Password
Enter New Password:
Enter New Password Again:
F1 Help
Esc Exit
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
Numlock
Select the power-on state for numlock.
Boot Type
Select the boot type. The options include Dual Boot Type, Legacy Boot Type, and UEFI
Boot Type.
Network stack
Enable or disable UEFI network stack. It supports the operation of these functions or
software: Windows 8 BitLocker Network Unlock, UEFI IPv4/IPv6 PXE and legacy PXE
Option ROM.
USB Boot
Enable or disable the booting to USB boot devices.
Note:
If the boot type is set to UEFI, the method for RAID volume creation will be
different. Please refer to Chapter 6 ̵- RAID for more information.
37
Chapter 4 BIOS Setup
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Chapter 4
Legacy
Boot Type Order
This section configures legacy boot order.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Select Normal Boot Option
Priority or Advance Boot
Option Priority
Boot Device Priority
Normal Boot Menu


Use + and - keys to arrange the sequence of storage devices that the system’s
hardware will check in the operating system’s boot files. The first device in the order
list has the first boot priority.
Rev. 5.0
<Normal>
Main
Boot Type Order
Hard Disk Drive
InsydeH20 Setup Utility
Boot
Exit
F5/F6 Change Values
Enter Select  SubMenu
Rev. 5.0
Boot Type Order
Hard Disk Drive
CD/DVD-ROM Drive
USB
Others
Floppy Drive
Normal Boot Menu
↑/↓ Select Item
←/→ Select Item
Security
Boot Type Order
Normal
Advance
F1 Help
Esc Exit
Advanced
F9 Setup Defaults
F10 Save and Exit
F1 Help
Esc Exit
Normal Boot Menu
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
Normal
Hard Disk Drive
Select the boot menu type: normal or advanced.
All installed hard disk drives will be displayed in this field. Use + and - keys to
arrange the sequence of hard disk drives that the system’s hardware will check in the
operating system’s boot files.
For the advanced menu type: Use + and - keys to arrange the priority of the listed
boot devices.
For normal menu type: Select the "Boot Type Order" or "Hard Disk Drive" category to
view and arrange the order of the detected devices.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Rev. 5.0
Hard Disk Drive
Hard Disk Drive
ST160LT007-9ZV14D
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
38
Chapter 4 BIOS Setup
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Chapter 4
CD/DVD-ROM Drive
Exit
All installed CD/DVD-ROM drives will be displayed in this field. Use + and - keys to arrange
the sequence of CD/DVD-ROM drives that the system’s hardware checks for the operating system’s boot files.
This section configures the parameters for exiting the BIOS menu.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Rev. 5.0
Main
InsydeH20 Setup Utility
Boot
Exit
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
Rev. 5.0
Exit system setup and save
your changes.
Exit Saving Changes
Load Optimal Defaults
Discard Changes
ATAP1 iHAS324 Y
↑/↓ Select Item
←/→ Select Item
Security
CD/DVD-ROM Drive
CD/DVD-ROM Drive
F1 Help
Esc Exit
Advanced
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
Exit Saving Changes
Select this field and then press <Enter> to exit the BIOS setup and save your
changes.
Load Optimal Defaults
Select this field and then press <Enter> to load optimal defaults.
Discard Changes
Select this field and then press <Enter> to exit the BIOS setup without saving your
changes.
39
Chapter 4 BIOS Setup
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Chapter 4
Updating the BIOS
Notice: BIOS SPI ROM
To update the BIOS, you will need the new BIOS file and a flash utility. Please contact technical support or your sales representative for the files and specific instructions about how to
update BIOS with the flash utility.
1. The Intel® Management Engine has already been integrated into this system board. Due to
the safety concerns, the BIOS (SPI ROM) chip cannot be removed from this system board
and used on another system board of the same model.
When you download the given BIOS file, you may find a BIOS flash utility attached with the
BIOS file. This is the utility for performing BIOS updating procedure. For your convenience, we
will also provide you with an auto-execution file in the BIOS file downloaded. This auto-execution file will bring you directly to the flash utility menu soon after system boots up and finishes
running the boot files in your boot disk.
2. The BIOS (SPI ROM) on this system board must be the original equipment from the factory
and cannot be used to replace one which has been utilized on other system boards.
RRead file successfully.
3. If you do not follow the methods above, the Intel® Management Engine will not be
updated and will cease to be effective.
Note:
a. You can take advantage of flash tools to update the default configuration of the
BIOS (SPI ROM) to the latest version anytime.
b. When the BIOS IC needs to be replaced, you have to populate it properly onto the
system board after the EEPROM programmer has been burned and follow the
technical person's instructions to confirm that the MAC address should be burned
or not.
(path= “platform.ini”)
Information
Please do not remove the AC power
Insyde H20FFT (Flash Firmware Tool) Version (SEG) 100.00.08.10
Copyright(c) 2012 - 2016, Insyde Software Corp. All Rights Reserved.
Initializing
Current BIOS Model name: SU968
New BIOS Model name: SU968
Current BIOS version: 65.05A
New BIOS version: 65.05A
Updating Block at FFFFF000h
0%
25%
50%
75%
C:\SU968>_
100%
100%
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Chapter 5
Chapter 5 - Supported Software
Auto Run Page (For Windows 8.1)
Install drivers, utilities and software applications that are required to facilitate and enhance the
performance of the system board. You may acquire the software from your sales representatives, from an optional DVD included in the shipment, or from the website download page at
https://www.dfi.com/DownloadCenter.
Auto Run Page (For Windows 10)
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Chapter 5
Auto Run Page (For Windows 7)
Intel Chipset Software Installation Utility
The Intel Chipset Software Installatn Utility is used for updating Windows® INF files so that the
Intel chipset can be recognized and configured properly in the system.
To install the utility, click “Intel Chipset Software Installation Utility” on the main menu.
1. Setup is ready to install the
utility. Click “Next”.
2. Read the license agreement
then click “Yes”.
Note:
This step can be ignored if the applications are standalone files.
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Chapter 5
Intel Graphics Drivers
3. Go through the readme
document for more installation tips then click “Next”.
To install the driver, click “Intel Graphics Drivers” on the main menu.
1. Setup is now ready to
install the graphics driver.
Click “Next”.
4. After completing installation, click “Finish” to exit
setup.
By default, the “Automatically run WinSAT and enable the Windows Aero desktop theme” is
enabled. With this enabled, after installing the graphics driver and the system rebooted, the
screen will turn blank for 1 to 2 minutes (while WinSAT is running) before the Windows 7/
Windows 8.1/ Windows 10 desktop appears. The “blank screen” period is the time Windows is
testing the graphics performance.
We recommend that you skip this process by disabling this function then click “Next”.
2. Read the license agreement
then click “Yes”.
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Chapter 5
Audio Drivers (For COM332-B Carrier Board)
3. Go through the readme
document for system requirements and installation
tips then click “Next”.
To install the driver, click “Audio Drivers (for COM332-B Carrier Board)” on the main menu.
1. Setup is now ready to install the
audio driver. Click “Next”.
2. Follow the remainder of the steps
on the screen; clicking “Next”
each time you finish a step.
4. Setup is now installing
the driver. Click “Next” to
continue.
3. Click “Yes, I want to restart my
computer now” then click “Finish”.
Restarting the system will allow the
new software installation to take
effect.
5. Click “Yes, I want to restart
this computer now” then
click “Finish”.
Restarting the system will
allow the new software
installation to take effect.
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Chapter 5
Intel LAN Drivers
4. Click “Install” to begin the
installation.
To install the driver, click “Intel LAN Drivers” on the main menu.
1. Setup is ready to install the
driver. Click “Next”.
5. After completing installation, click “Finish”.
2. Click “I accept the terms
in the license agreement”
then click “Next”.
3. Select the program featuers
you want installed then
click “Next”.
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Chapter 5
Kernel Mode Driver (For Windows 7 only)
3. Click “Restart Now“ to
restart your computer when
the installation is complete.
To install the driver, click “Kernel Mode Driver Framework” on the main menu.
1. Click “Yes“ to install the
update.
2. The update is installed
now.
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Chapter 5
Intel Management Engine Drivers
3. Setup is currently installing
the driver. After installation
has completed, click “Next”.
To install the driver, click “Intel Management Engine Drivers” on the main menu.
1. Setup is ready to install the
driver. Click “Next”.
4. Please wait while the product is being installed.
2. Read the license agreement
then click “Next”.
5. After completing installation, click “Finish”.
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Chapter 5
HW Utility
3. Read the license agreement
then click “I accept the terms
in the license agreement”.
Click “Next”.
HW Utility provides information about the board, Watchdog, and DIO. To access the utility,
click “HW Utility” on the main menu.
Note:
If you are using Windows 7 or later versions, you need to access the operating system
as an administrator to be able to install the utility.
1. Setup is ready to install the
driver.
4. The wizard is ready to begin
installation. Click “Install”.
2. Click “Next” to continue.
5. Please wait while the program
features are being installed.
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Chapter 5
6. After completing installation, click “Finish”.
The HW Utility icon will appear on the desktop. Double-click the icon to open the utility.
SU968
Note:
Note: The screenshot displayed above is for illustrative purpose only, and may not
resemble the actual screen.
The SU968 HW Utility features the following tabs: Information, HW Health, HW Healthset,
Watchdog, DIO and Backlight. Click on the tabs to access information about the board.
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Chapter 5
Intel USB 3.0 Drivers
3. Go through the readme document for more installation tips
then click “Next”.
To install the driver, click “Intel USB 3.0 Driver” on the main menu.
1. Setup is ready to install the driver.
Click “Next”.
4. Setup is currently installing the
driver. After installation has completed, click “Next”.
2. Read the license agreement then
click “Yes”.
5. After completing installation, click
“Finish”.
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Chapter 5
Microsoft Framework 4.5.2 (For Windows 7)
3. Setup is now installing the
driver.
Note:
Before installing Microsoft Framework 4.5.2, make sure you have updated your
Windows 7 operating system to Service Pack 1.
To install the driver, click “Microsoft Framework 4.5.2” on the main menu.
1. Setup is now extracting files.
4. Click “Finish”.
2. Read the license agreement carefully.
Click “I have read and accept
the terms of the License Agree
ment” then click “Install”.
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Chapter 5
Intel Rapid Storage Technology
Infineon TPM 1.2 Driver and Tool (Optional)
The Intel Rapid Storage Technology is a utility that allows you to monitor the current status
of the SATA drives. It enables enhanced performance and power management for the storage
subsystem.
To install the driver, click “Infineon TPM driver and tool (option)” on the main menu.
1. The setup program is preparing
to install the driver.
To install the driver, click “Intel Rapid Storage Technology” on the main menu. Please refer to
Chapter 6 for more information.
2. The setup program is now ready
to install the utility. Click “Next”.
3. Click “I accept the terms in the
license agreement” and then
click “Next”.
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Chapter 5
4. Enter the necessary information
and then click “Next”.
7. TPM requires installing the Microsoft Visual C++ package prior to
installing the utility. Click “Install”.
5. Select a setup type and then click
“Next”.
8. The setup program is currently
installing the Microsoft Visual
C++ package.
9. Click “Finish”.
6. Click “Install”.
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Chapter 5
Adobe Acrobat Reader 9.3
10. Click “Yes” to restart your system.
To install the reader, click “Adobe Acrobat Reader 9.3” on the main menu.
1. Click Next to install or click
Change Destination Folder
to select another folder.
2. Click “Install” to begin installation.
3. Click “Finish” to exit installation.
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Chapter 6
Chapter 6 - RAID
Settings
The system board allows configuring RAID on Serial ATA drives. It supports RAID 0, RAID 1,
RAID 5 and RAID 10.
To enable the RAID function, the following settings are required.
1. Connect the Serial ATA drives.
RAID Levels
2. Enable Serial ATA in the Insyde BIOS.
RAID 0 (Striped Disk Array without Fault Tolerance)
3. Create a RAID volume.
RAID 0 uses two new identical hard disk drives to read and write data in parallel, interleaved
stacks. Data is divided into stripes and each stripe is written alternately between two disk
drives. This improves the I/O performance of the drives at different channel; however it is not
fault tolerant. A failed disk will result in data loss in the disk array.
4. Install the Intel Rapid Storage Technology Utility.
RAID 1 (Mirroring Disk Array with Fault Tolerance)
Step 1: Connect the Serial ATA Drives
RAID 1 copies and maintains an identical image of the data from one drive to the other drive.
If a drive fails to function, the disk array management software directs all applications to the
other drive since it contains a complete copy of the drive’s data. This enhances data protection
and increases fault tolerance to the entire system. Use two new drives or an existing drive and
a new drive but the size of the new drive must be the same or larger than the existing drive.
Refer to Chapter 2 for details on connecting the Serial ATA drives.
Important:
1. Make sure you have installed the Serial ATA drives and connected the data cables
otherwise you won’t be able to enter the RAID BIOS utility.
2. Treat the cables with extreme caution especially while creating RAID. A damaged
cable will ruin the entire installation process and operating system. The system will
not boot and you will lost all data in the hard drives. Please give special attention
to this warning because there is no way of recovering back the data.
RAID 5
RAID 5 stripes data and parity information across hard drives. It is fault tolerant and provides
better hard drive performance and more storage capacity.
RAID 10 (Mirroring and Striping)
Step 2: Enable RAID in the Insyde BIOS
RAID 10 is a combination of data striping and data mirroring providing the benefits of both
RAID 0 and RAID 1. Use four new drives or an existing drive and three new drives for this
configuration.
1. Power-on the system then press <Del> to enter the main menu of the Insyde BIOS.
2. Go to “Advanced” menu, and select the “SATA Configuration” menu.
RAID Level
Min. Drives
Protection
Description
3. Change the “SATA Mode Selection” to “RAID” mode.
RAID 0
2
None
Data striping without redundancy
4. Save the changes in the “Save & Exit” menu.
RAID 1
2
Single Drive Failure
Disk mirroring
5. Reboot the system.
RAID 5
3
Single Drive Failure
RAID 10
4
Block-level data striping with
distributed parity
1 Disk Per Mirrored
Combination of RAID 0 (data striping)
Stripe (not same mirror) and RAID 1 (mirroring)
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Chapter 6
Step 3: Create a RAID Volume
Step 3-1: Create a RAID Volume if the boot type is UEFI
1. When the Intel RST option ROM status screen displays during POST, press <Ctrl> and
<I> simultaneously to enter the option ROM user interface.
If the boot type is set to UEFI, RAID volume creation will be different. Please use the following
steps to create RAID volumes. To set the boot type, enter the Insyde BIOS and go to “Boot”
>”Boot type”.
®
2. Select 1: Create RAID Volume and press <Enter>.
3. Use the up or down arrow keys to select the RAID level and press <Enter>.
1. Go to the “Advanced” menu of the Insyde BIOS.
4. Use the up or down arrow keys to select the strip size and press <Enter>.
2. The “Intel® Rapid Storage Technology” menu appears. Enter this menu.
5. Press <Enter> to select the physical disks.
6. Use the up or down arrow keys to scroll through the list of hard drives and press <Space>
to select the drive.
7. Press <Enter>.
8. Select the volume size and press <Enter>. You must select less than one hundred percent
of the available volume space to leave space for the second volume.
9. Press <Enter> to create the volume.
10. At the prompt, press <Y> to confirm volume creation.
11. Select 4: Exit and press <Enter>.
12. Press <Y> to confirm exit.
Note:
These steps are cited from the Intel® Suppot site, “Set Up a System with Intel®
Matrix RAID Technology” (Article ID: 000005789).
http://www.intel.com/content/www/us/en/support/boards-and-kits/000005789.htm
3. The screen displays all available drives. Select “Create RAID volume” to create a RAID
volume”.
4. Use the up or down arrow keys to select the RAID level and press <Enter>.
5. Use the up or down arrow keys to scroll through the list of hard drives and press <Space>
to select the drive.
6. Press <Enter>.
7. Use the up or down arrow keys to select the strip size and press <Enter>.
8. Enter the volume size and press <Enter>.
9. At the prompt, press <Y> to confirm volume creation.
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Chapter 6
Step 4: Install the Intel Rapid Storage Technology Utility
5. Go through the readme
document to view system
requirements and installation information then click
“Next”.
The Intel Rapid Storage Technology Utility can be installed from within Windows. It allows
RAID volume management (create, delete, migrate) from within the operating system. It will
also display useful SATA device and RAID volume information. The user interface, tray icon
service and monitor service allow you to monitor the current status of the RAID volume and/
or SATA drives. It enables enhanced performance and power management for the storage
subsystem.
1. Insert the provided DVD into an optical drive.
2. Click “Intel Rapid Storage Technology Utility” on the main menu.
3. Setup is ready to install
the utility. Click “Next”.
6. Click “Next” to install to
the default folder or click
change to choose another
destination folder.
4. Read the license agreement and click “I accept
the terms in the License
Agreement.“ Then, click
“Next”.
7. Confirm the installation and
click “Next”.
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Chapter 6
8. Click “Yes, I want to restart
this computer now” to
complete the installation
and then click “Finish”.
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Chapter 6 RAID
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Chapter 7
Chapter 7 - Intel AMT Settings
Enable Intel® AMT in the Insyde BIOS
Overview
1. Power-on the system then press <Del> to enter the main menu of the Insyde BIOS.
Intel Active Management Technology (Intel AMT) combines hardware and software solution to
provide maximum system defense and protection to networked systems.
2. In the Advanced menu, select AMT Configuration.
®
The hardware and software information are stored in non-volatile memory. With its built-in
manageability and latest security applications, Intel® AMT provides the following functions.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Rev. 5.0
AMT Configuration
ACPI Configuration
CPU Configuration
Video Configuration
Audio Configuration
SATA Configuration
USB Configuration
PCI Express Configuration
ME Configuration
MEBX Configuration
 Active Management Technology Supoort
 PC Health Status








• Discover
Allows remote access and management of networked systems even while PCs are powered off;
significantly reducing desk-side visits.
• Repair
Remotely repair systems after OS failures. Alerting and event logging help detect problems
quickly to reduce downtime.
• Protect
Intel AMT’s System Defense capability remotely updates all systems with the latest security
software. It protects the network from threats at the source by proactively blocking incoming
threats, reactively containing infected clients before they impact the network, and proactively
alerting when critical software agents are removed.
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
3. In the Advanced menu, select Enable in the AMT field.
InsydeH20 Setup Utility
Rev. 5.0
Advanced
Enable/Disable Intel (R)
Active Management Technology BIOS Extension.
Note : iAMT H/W is always enabled. This option
just controls the BIOS
extension execution.
Active Management Technology Support
Intel AMT Support
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
<Enabled>
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
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Chapter 7
Enable Intel® AMT in the Intel® Management
Engine BIOS Extension (MEBX) Screen
4. In the Save & Exit menu, select Save Changes and Reset then select OK.
Main
Advanced
Security
InsydeH20 Setup Utility
Boot
Exit
Rev. 5.0
1. When the system reboots, you will be prompted for a password. The default password is
“admin”. Enter the default password in the space provided under Intel(R) ME Password
then press Enter.
Exit system setup and save
your changes.
Exit Saving Changes
Load Optimal Defaults
Discard Changes
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
MAIN MENU
MEBx Login
> Intel (R) ME General Settings
> Intel (R) AMT Configuration
MEBx Exit
F1 Help
Esc Exit
↑/↓ Select Item
←/→ Select Item
F5/F6 Change Values
Enter Select  SubMenu
F9 Setup Defaults
F10 Save and Exit
Intel(R) ME Password
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
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Chapter 7
2. Enter a new password in the space provided under Intel(R) ME New Password then press
Enter. The password must include:
•
•
•
•
•
3. You will be asked to verify the password. Enter the same new password in the space provided under Verify Password then press Enter.
8-32 characters
Strong 7-bit ASCII characters excluding : , and ” characters
At least one digit character (0, 1, ...9)
At least one 7-bit ASCII non alpha-numeric character, above 0x20, (e.g. !, $, ;)
Both lower case and upper case characters
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
MAIN MENU
MEBx Login
> Intel (R) ME General Settings
> Intel (R) AMT Configuration
MEBx Exit
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
MAIN MENU
Verify Password
MEBx Login
> Intel (R) ME General Settings
> Intel (R) AMT Configuration
MEBx Exit
Intel(R) ME Password
Intel (R) ME New Password
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
Intel(R) ME Password
4. Select Intel(R) ME General Settings then press Enter.
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
MAIN MENU
> Intel (R) ME General Settings
> Intel (R) AMT Configuration
MEBx Exit
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
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Chapter 7
5. Select Change Intel(R) ME Password then press Enter.
6.Select Local FW Update then press Enter. Select Enabled then press Enter.
You will be prompted for a password. The default password is “admin”. Enter the default
password in the space provided under Intel(R) ME New Password then press Enter.
•
•
•
•
•
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME PLATFORM CONFIGURATION
8-32 characters
Strong 7-bit ASCII characters excluding : , and ” characters
At least one digit character (0, 1, ...9)
At least one 7-bit ASCII non alpha-numeric character, above 0x20, (e.g. !, $, ;)
Both lower case and upper case characters
Change ME Password
Local FW Update
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME PLATFORM CONFIGURATION
Change ME Password
Local FW Update
<Enabled>
Disabled
Enabled
Password Protected
<Enabled>
Intel (R) ME New Password
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
7. Select Previous Menu until you return to the Main Menu. Select Intel(R) AMT Configuration then press Enter.
Intel (R) ME New Password
[↑↓] = Move Highlight
[Enter] = Select Entry
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
[Esc]= Exit
Manageability Feature Selection
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Activate Netwok Access
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
[↑↓] = Move Highlight
< Enabled>
<Anytime>
<Full Unprovision>
[Enter] = Select Entry
[Esc]= Exit
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8.In the Intel(R) AMT Configuration menu, select Manageability Feature Selection
then press Enter. Select Enabled or Disabled then press Enter.
10. In the SOL/Storage Redirection/KVM menu, select Username and Password then
press Enter. Select Enabled or Disabled then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
Manageability Feature Selection
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Disabled
Activate Netwok Access
Enabled
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
SOL/Storage Redirection/KVM
Username and Password
SOL
Storage Redirection
KVM Feature Selection
< Enabled>
<Anytime>
<Full Unprovision>
Disabled
Enabled
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
9.In the Intel(R) AMT Configuration menu, select SOL/Storage Redirection/KVM
then press Enter.
11. In the SOL/Storage Redirection/KVM menu, select SOL then press Enter. Select
Enabled or Disabled then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
Manageability Feature Selection
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Activate Netwok Access
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
<Enabled>
<Enabled>
<Enabled>
<Enabled>
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
SOL/Storage Redirection/KVM
< Enabled>
Username and password
SOL
Storage Redirection
KVM Feature Selection
<Anytime>
<Full Unprovision>
<Enabled>
<Enabled>
<Enabled>
<Enabled>
Disabled
Enabled
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[↑↓] = Move Highlight [Enter] = Select Entry [Esc]= Exit
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Chapter 7
12. In the SOL/Storage Redirection/KVM menu, select Storage Redirection then press
Enter. Select Enabled or Disabled then press Enter.
14. Select Previous Menu until you return to the Intel(R) AMT Configuration menu. Select
User Consent then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
USER CONSENT
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
SOL/Storage Redirection/KVM
Username and password
SOL
Storage Redirection
KVM Feature Selection
User Opt-in
Opt-in Configurable from Remote IT
<Enabled>
<Enabled>
<Enabled>
<Enabled>
< KVM>
< Enabled>
Disabled
Enabled
Configure When User Consent Should be Required.
[↑↓] = Move Highlight
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
13. In the SOL/Storage Redirection/KVM menu, select KVM Feature Selection then
press Enter. Select Enabled or Disabled then press Enter.
[Esc]= Exit
15. In the User Consent menu, select User Opt-in then press Enter. Select None or KVM
or ALL then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
SOL/Storage Redirection/KVM
Username and password
SOL
Storage Redirection
KVM Feature Selection
[Enter] = Select Entry
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
USER CONSENT
<Enabled>
<Enabled>
<Enabled>
<Enabled>
User Opt-in
Opt-in Configurable from Remote IT
< KVM>
< Enabled>
NONE
KVM
ALL
Disabled
Enabled
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
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16. In the User Consent menu, select Opt-in Configurable from Remote IT then press
Enter. Select Enabled or Disable Remote Control of KVM Opt-in Policy then press
Enter.
18. In the Intel(R) AMT Configuration menu, select Network Setup then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
USER CONSENT
User Opt-in
Opt-in Configurable from Remote IT
Manageability Feature Selection
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Activate Network Access
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
< KVM>
< Enabled>
Disabled
Enabled
< Enabled>
<Anytime>
<Full Unprovision>
Enable/Disable Remote Change Capability of User Consent Feature
[↑↓] = Move Highlight
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[Enter] = Select Entry
[Esc]= Exit
19. In the Intel(R) ME Network Setup menu, select Intel(R) ME Network Name Settings then press Enter.
17. Select Previous Menu until you return to the Intel(R) AMT Configuration menu. Select
Password Policy then press Enter.
You may choose to use a password only during setup and configuration or to use a password anytime the system is being accessed.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME NETWORK SETUP
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
> Intel (R) ME Network Name Settings
> TCP/ IP Settings
Manageability Feature Selection
<Enabled>
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
<Anytime>
> Network Setup
Activate Netwok Access
Unconfigure Network Access
<Full Unprovision>
> Remote Setup And Configuration
> Power Control
Default Password Only
During Step And Configuration
Anytime
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
65
Chapter 7 Intel AMT Settings
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Chapter 7
22. Select Shared/Dedicated FQDN then press Enter. Select Shared or Dedicated then
press Enter.
20. In the Intel(R) ME Network Name Settings menu, select Host Name then press
Enter. Enter the computer’s host name then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME NETWORK NAME SETTINGS
Host Name
Domain Name
Shared/ Dedicated FQDN
Dynamic DNS Update
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME NETWORK NAME SETTINGS
_
_
<Shared>
<Disabled>
Host Name
Domain Name
Shared/ Dedicated FQDN
Dynamic DNS Update
Computer Host Name
[Enter] = Complete Entry
Dedicated
Shared
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[Esc]= Discard Changes
21. Select Domain Name then press Enter. Enter the computer’s domain name then press
Enter.
23. Select Dynamic DNS Update then press Enter. Select Enabled or Disabled then press
Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME NETWORK NAME SETTINGS
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) ME NETWORK NAME SETTINGS
Host Name
Domain Name
Shared/ Dedicated FQDN
Dynamic DNS Update
_
_
<Shared>
<Disabled>
Host Name
Domain Name
Shared/ Dedicated FQDN
Dynamic DNS Update
Computer Domain Name
[Enter] = Complete Entry
_
_
<Shared>
<Disabled>
_
_
<Shared>
<Disabled>
Disabled
Enabled
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[Esc]= Discard Changes
66
Chapter 7 Intel AMT Settings
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Chapter 7
24. Select Previous Menu until you return to the Intel(R) ME Network Setup menu. Select
TCP/IP Settings then press Enter.
26. In the Intel(R) AMT Configuration menu, select Activate Network Access then
press Enter. Press Y then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
TCP/ IP SETTINGS
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
> Wired LAN IPV4 Configuration
[↑↓] = Move Highlight
[Enter] = Select Entry
Manageability Feature Selection
< Enabled>
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
<Anytime>
> Network Setup
Activate Network Access
Unconfigure Network Access
<Full Unprovision>
> Remote Setup And Configuration
> Power Control
Activates the current network settings
and opens the ME network interface
Continue: (Y/N)
[Esc]= Exit
[↑↓] = Move Highlight [Enter] = Select Entry [Esc]= Exit
25. In the TCP/IP Settings menu, select Wired LAN IPV4 Configuration then press
Enter. Select Enabled or Disable IPV4 DHCP Mode then press Enter.
27. In the Intel(R) AMT Configuration menu, select Unconfigure Network Access then
press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
WIRED LAN IPV4 CONFIGURATION
DHCP Mode
<Enabled>
Manageability Feature Selection
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Activate Network Access
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
Disabled
Enabled
<Enabled>
<Anytime>
<Full Unprovision>
Full Unprovision
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
67
Chapter 7 Intel AMT Settings
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Chapter 7
28. In the Intel(R) AMT Configuration menu, select Remote Setup And Configuration
then press Enter.
30. In the Intel(R) Remote Setup And Configuration menu, select Provisioning Record then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
Manageability Feature Selection
> SOL/Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Activate Network Access
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
[↑↓] = Move Highlight
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) REMOTE SETUP AND CONFIGURATION
Current Provisioning Mode
Provisioning Record
Provisioning Server IPV4/IPV6
_
Provisioning Server FQDN
_
> RCFG
> TLS PKI
Provision Record is not present
< Enabled>
<Anytime>
<Full Unprovision>
[Enter] = Select Entry
[↑↓] = Move Highlight
[Esc]= Exit
29. In the Intel(R) Remote Setup And Configuration menu, select Current Provisioing
Mode then press Enter.
[Enter] = Select Entry
[Esc]= Exit
31. In the Intel(R) Remote Setup And Configuration menu, select Provisioning server
IPV4/IPV6, enter the Provisioning server address then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) REMOTE SETUP AND CONFIGURATION
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
Current Provisioning Mode
Provisioning Record
Provisioning Server IPV4/IPV6
Provisioning Server FQDN
> RCFG
> TLS PKI
Provisioning Mode: PKI
Current Provisioning Mode
Provisioning Record
Provisioning Server IPV4/IPV6
Provisioning Server FQDN
> RCFG
> TLS PKI
INTEL (R) REMOTE SETUP AND CONFIGURATION
_
_
_
_
Provisioning server address
[↑↓] = Move Highlight
[Enter] = Select Entry
[Enter] = Complete Entry
[Esc]= Exit
[Esc]= Discard Changes
68
Chapter 7 Intel AMT Settings
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Chapter 7
32. In the Intel(R) Remote Setup And Configuration menu, select Provisioning server
FQDN, enter the FQDN of Provisioning server then press Enter.
34. In the Intel(R) Remote Setup And Configuration menu, select TLS PKI then press
Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) REMOTE SETUP AND CONFIGURATION
INTEL (R) REMOTE SETUP AND CONFIGURATION
Current Provisioning Mode
Provisioning Record
Provisioning Server IPV4/IPV6
Provisioning Server FQDN
> RCFG
> TLS PKI
Current Provisioning Mode
Provisioning Record
Provisioning Server IPV4/IPV6
Provisioning Server FQDN
> RCFG
> TLS PKI
_
_
_
_
Enter FQDN of provisioning server
[ESC] = Exit
[Enter] = Complete Entry
[Esc]= Discard Changes
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
35. In the Intel(R) Remote Configuration menu, select Remote Configuration** then
press Enter, select Enabled or Disabled then press Enter.
33. In the Intel(R) Remote Setup And Configuration menu, select RCFG then press
Enter, and select Start Configuration then press enter. Type Y then press enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) REMOTE CONFIGURATION
INTEL (R) REMOTE CONFIGURATION
Start Configuration
Remote Configuration**
PKI DNS Suffix
> Manage Hashes
This will activate Remote Condiguration.
Continue: (Y/N)
[↑↓] = Move Highlight
[Enter] = Select Entry
< Enabled>
_
Disabled
Enabled
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[Esc]= Exit
69
Chapter 7 Intel AMT Settings
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Chapter 7
36. In the Intel(R) Remote Configuration menu, select PKI DNS Suffix then press
Enter. Type PKI DNS Suffix then press Enter.
38. In the Intel(R) Remote Configuration menu, select Manage Hashes then press
Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) REMOTE CONFIGURATION
INTEL (R) REMOTE CONFIGURATION
Remote Configuration**
PKI DNS Suffix
> Manage Hashes
Hash Name
VeriSign Class 3
VeriSign Class 3
Go Daddy Class 2
Comodo AAA CA
Starfield Class 2
VeriSign Class 3
VeriSign Class 3
VeriSign Class 3
GTE CyberTrust G1
Baltimore Cyber Tr
Cyber Trust Global
Verizon Global Ro
Entrust. net CA (2
Entrust Root CA
VeriSign Universa
Go Daddy Root CA
Entrust Root CA Startfield Root CA
< Enabled>
_
Enter PKI DNS Suffix
[Enter] = Complete Entry
[Esc]= Discard Changes
[Ins]= Add New Hash
[↑↓] =Move Highlight
37. Select Manage Hashes then press Enter, and select one of hash name.
Active
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
Active: [*]
[Delete] = Delete Hash
[Enter] = View Hash
Default
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Default: [*]
Algorithm
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
SHA256
[+] = Activate Hash
[Esc]= Exit
39. In the Intel(R) AMT Configuration menu, select Power Control then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT CONFIGURATION
INTEL (R) REMOTE CONFIGURATION
Remote Configuration**
PKI DNS Suffix
> Manage Hashes
[↑↓] = Move Highlight
< Enabled>
_
[Enter] = Select Entry
Manageability Feature Selection
> SOL/ Storage Redirection/KVM
> User Consent
Password Policy
> Network Setup
Activate Netwok Access
Unconfigure Network Access
> Remote Setup And Configuration
> Power Control
<Enabled>
<Anytime>
<Full Unprovision>
[Esc]= Exit
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
70
Chapter 7 Intel AMT Settings
www.dfi.com
Chapter 7
40. In the Intel(R) AMT Power Control menu, select Intel(R) AMT ON in Host Sleep
States then press Enter. Select an option then press Enter.
42. Select Previous Menu until you return to the Main Menu. Select Exit then press Enter.
Type Y then press Enter.
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R) AMT POWER CONTROL
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
MAIN MENU
These configurations are effective only after AMT provisioning has started
Intel (R) AMT ON in Host Sleep States
Idle Timeout
> Intel (R) ME General Settings
> Intel (R) AMT Configuration
MEBx Exit
<Mobile: ON in S0,
ME Wake in S3, S4-5
(AC only)>
65535
Mobile: ON in S0
Mobile: ON in S0, ME Wake in S3, S4-5 (AC only)
Exit
[↑↓] = Move Highlight [Enter] = Complete Entry [Esc]= Discard Changes
[↑↓] = Move Highlight
[Enter] = Select Entry
[Esc]= Exit
41. In the Intel(R) AMT Power Control menu, select Idle Timeout then press Enter.
Enter the timeout value (1-65535).
Intel(R) Management Engine BIOS Extension v11.0.0.0005/Intel(R) ME v11.0.0.1197
Copyright(C) 2003-15 Intel Corporation. All Rights Reserved.
INTEL (R)MAIN
AMT MENU
POWER CONTROL
This configurations are effective only after AMT provisioning has started
Intel (R) ME ON in Host Sleep States
Idle Timeout
<Mobile: ON in S0,
ME Wake in S3, S4-5
(AC only)>
65535
Timeout Value (1-65535)
65535
<ENTER> = Complete Entry
[ESC]= Discard Changes
71
Chapter 7 Intel AMT Settings
www.dfi.com
Appendix A
Appendix A - Troubleshooting
The picture seems to be constantly moving.
1. The monitor has lost its vertical sync. Adjust the monitor’s vertical sync.
Troubleshooting Checklist
2. Move away any objects, such as another monitor or fan, that may be creating a magnetic
field around the display.
This chapter of the manual is designed to help you with problems that you may encounter
with your personal computer. To efficiently troubleshoot your system, treat each problem individually. This is to ensure an accurate diagnosis of the problem in case a problem has multiple
causes.
3. Make sure your video card’s output frequencies are supported by this monitor.
The screen seems to be constantly wavering.
Some of the most common things to check when you encounter problems while using your
system are listed below.
1. The power switch of each peripheral device is turned on.
1. If the monitor is close to another monitor, the adjacent monitor may need to be turned off.
Fluorescent lights adjacent to the monitor may also cause screen wavering.
2. All cables and power cords are tightly connected.
Power Supply
3. The electrical outlet to which your peripheral devices are connected is working. Test the
outlet by plugging in a lamp or other electrical device.
When the computer is turned on, nothing happens.
4. The monitor is turned on.
1. Check that one end of the AC power cord is plugged into a live outlet and the other end
properly plugged into the back of the system.
5. The display’s brightness and contrast controls are adjusted properly.
2. Make sure that the voltage selection switch on the back panel is set for the correct type of
voltage you are using.
6. All add-in boards in the expansion slots are seated securely.
3. The power cord may have a “short” or “open”. Inspect the cord and install a new one if
necessary.
7. Any add-in board you have installed is designed for your system and is set up correctly.
Monitor/Display
If the display screen remains dark after the system is turned on:
1. Make sure that the monitor’s power switch is on.
2. Check that one end of the monitor’s power cord is properly attached to the monitor and the
other end is plugged into a working AC outlet. If necessary, try another outlet.
3. Check that the video input cable is properly attached to the monitor and the system’s
display adapter.
4. Adjust the brightness of the display by turning the monitor’s brightness control knob.
72
Appendix A Troubleshooting
www.dfi.com
Appendix A
Hard Drive
System Board
Hard disk failure.
1. Make sure the add-in card is seated securely in the expansion slot. If the add-in card is
loose, power off the system, re-install the card and power up the system.
1. Make sure the correct drive type for the hard disk drive has been entered in the BIOS.
2. Check the jumper settings to ensure that the jumpers are properly set.
2. If the system is configured with two hard drives, make sure the bootable (first) hard drive
is configured as Master and the second hard drive is configured as Slave. The master hard
drive must have an active/bootable partition.
3. Verify that all memory modules are seated securely into the memory sockets.
4. Make sure the memory modules are in the correct locations.
Excessively long formatting period.
5. If the board fails to function, place the board on a flat surface and seat all socketed components. Gently press each component into the socket.
If your hard drive takes an excessively long period of time to format, it is likely a cable connection problem. However, if your hard drive has a large capacity, it will take a longer time to
format.
6. If you made changes to the BIOS settings, re-enter setup and load the BIOS defaults.
Serial Port
The serial device (modem, printer) doesn’t output anything or is outputting garbled
characters.
1. Make sure that the serial device’s power is turned on and that the device is on-line.
2. Verify that the device is plugged into the correct serial port on the rear of the computer.
3. Verify that the attached serial device works by attaching it to a serial port that is working and configured correctly. If the serial device does not work, either the cable or the serial
device has a problem. If the serial device works, the problem may be due to the onboard I/O
or the address setting.
4. Make sure the COM settings and I/O address are configured correctly.
Keyboard
Nothing happens when a key on the keyboard was pressed.
1. Make sure the keyboard is properly connected.
2. Make sure there are no objects resting on the keyboard and that no keys are pressed during the booting process.
73
Appendix A Troubleshooting
www.dfi.com
Appendix B
Appendix B - Insyde BIOS Standard Status POST Code
SEC Phase 8-Bit POST Code Values
Functionality Name
SEC_SYSTEM_POWER_ON
SEC_AFTER_MICROCODE_PATCH
SEC_ACCESS_CSR
SEC_GENERIC_MSRINIT
SEC_CPU_SPEEDCFG
SEC_SETUP_CAR_OK
SEC_FORCE_MAX_RATIO
SEC_GO_TO_SECSTARTUP
SEC_GO_TO_PEICORE
POST Code Value Description
01
CPU power on and switch to Protected mode
03
Setup Cache as RAM
04
PCIE MMIO Base Address initial
05
CPU Generic MSR initialization
06
Setup CPU speed
07
Cache as RAM test
08
Tune CPU frequency ratio to maximum level
09
Setup BIOS ROM cache
0A
Enter Boot Firmware Volume
PEI Phase 8-Bit POST Code Values
Functionality Name
PEI_SIO_INIT
PEI_CPU_REG_INIT
PEI_CPU_AP_INIT
PEI_CPU_HT_RESET
PEI_PCIE_MMIO_INIT
PEI_NB_REG_INIT
PEI_SB_REG_INIT
PEI_PCIE_TRAINING
PEI_TPM_INIT
PEI_MEMORY_INSTALL
PEI_TXTPEI
PEI_MEMORY_CALLBACK
POST Code Value
70
71
72
73
74
75
76
77
78
80
81
83
DXE Phase 8-Bit POST Code Values
Functionality Name
DXE_SB_SPI_INIT
DXE_VARIABLE_RECLAIM
DXE_FLASH_PART_NONSUPPORT
Description
Super I/O initialization
CPU Early Initialization
Multi-processor Early initialization
HyperTransport initialization
PCIE MMIO BAR Initialization
North Bridge Early Initialization
South Bridge Early Initialization
PCIE Training
TPM Initialization
Simple Memory test
TXT function early initialization
Set cache for physical memory
BDS_CONNECT_USB_DEVICE
BDS_NO_CONSOLE_ACTION
BDS_ENUMERATE_ALL_BOOT_OPTION
BDS_ENTER_SETUP
BDS_ENTER_BOOT_MANAGER
BDS_READY_TO_BOOT_EVENT
BDS_GO_LEGACY_BOOT
BDS_GO_UEFI_BOOT
BDS_LEGACY16_PREPARE_TO_BOOT
BDS_EXIT_BOOT_SERVICES
1B
1C
27
29
2A
2E
2F
30
31
32
USB device driver initialization
Console device initialization fail
Get boot device information
Enter Setup Menu
Enter Boot manager
Last Chipset initialization before boot to OS
Start to boot Legacy OS
Start to boot UEFI OS
Prepare to Boot to Legacy OS
Send END of POST Message to ME via HECI
PostBDS Phase 8-Bit POST Code Values
Functionality Name
POST_BDS_NO_BOOT_DEVICE
POST_BDS_JUMP_BOOT_SECTOR
POST Code Value Description
F9
No Boot Device
FE
Try to Boot with INT 19
ACPI 8-Bit POST Code Values
Functionality Name
ASL_ENTER_S1
ASL_ENTER_S3
ASL_ENTER_S4
ASL_ENTER_S5
ASL_WAKEUP_S1
ASL_WAKEUP_S3
ASL_WAKEUP_S4
ASL_WAKEUP_S5
POST Code Value Description
51
Prepare to enter S1
53
Prepare to enter S3
54
Prepare to enter S4
55
Prepare to enter S5
E1
System wakeup from S1
E3
System wakeup from S3
E4
System wakeup from S4
E5
System wakeup from S5
SMM 8-Bit POST Code Values
Functionality Name
SMM_ACPI_ENABLE_END
SMM_S1_SLEEP_CALLBACK
SMM_S3_SLEEP_CALLBACK
SMM_S4_SLEEP_CALLBACK
SMM_S5_SLEEP_CALLBACK
POST Code Value Description
A7
ACPI enable function complete
A1
Enter S1
A3
Enter S3
A4
Enter S4
A5
Enter S5
Post Code Values Description
41
South bridge SPI initialization
61
Variable store garbage collection and reclaim operation
62
Flash part not supported.
BDS Phase 8-Bit POST Code Values
Functionality Name
POST Code Value
BDS_ENTER_BDS
10
BDS_INSTALL_HOTKEY
11
BDS_ASF_INIT
12
BDS_PCI_ENUMERATION_START
13
BDS_BEFORE_PCIIO_INSTALL
14
BDS_PCI_ENUMERATION_END
15
BDS_CONNECT_CONSOLE_IN
16
BDS_CONNECT_CONSOLE_OUT
17
BDS_CONNECT_STD_ERR
18
BDS_CONNECT_USB_HC
19
BDS_CONNECT_USB_BUS
1A
BDS_CONNECT_USB_DEVICE
1B
BDS_NO_CONSOLE_ACTION
1C
BDS_ENUMERATE_ALL_BOOT_OPTION
27
BDS_ENTER_SETUP
29
BDS_ENTER_BOOT_MANAGER
2A
BDS_READY_TO_BOOT_EVENT
2E
BDS_GO_LEGACY_BOOT
2F
BDS_GO_UEFI_BOOT
30
BDS_LEGACY16_PREPARE_TO_BOOT
31
BDS_EXIT_BOOT_SERVICES
32
Description
Enter BDS entry
Install Hotkey service
ASF Initialization
PCI enumeration
PCI resource assign complete
PCI enumeration complete
Keyboard Controller, Keyboard and Mouse initializatio
Video device initialization
Error report device initialization
USB host controller initialization
USB BUS driver initialization
USB device driver initialization
Console device initialization fail
Get boot device information
Enter Setup Menu
Enter Boot manager
Last Chipset initialization before boot to OS
Start to boot Legacy OS
Start to boot UEFI OS
Prepare to Boot to Legacy OS
Send END of POST Message to ME via HECI
PostBDS Phase 8-Bit POST Code Values
Functionality Name
POST Code Value Description
POST_BDS_NO_BOOT_DEVICE
Boot Device
Appendix
B Insyde BIOS Standard F9
Status No
POST
Code
74
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