Com express connectors signal description – DFI CM901-B User Manual

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Chapter 3 Hardware Installation

17

Chapter 3

COM Express Connectors Signal Description

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

AC/HAD_RST#

A30

O CMOS

3.3V Suspend/3.3V

Reset output to CODEC, active low.

AC/HDA_SYNC

A29

O CMOS

3.3V/3.3V

Sample-synchronization signal to the CODEC(s).

AC/HDA_BITCLK

A32

I/O CMOS

3.3V/3.3V

Serial data clock generated by the external CODEC(s).

AC/HDA_SDOUT

A33

O CMOS

3.3V/3.3V

Serial TDM data output to the CODEC.

AC/HDA_SDIN2

B28

I/O CMOS

3.3V Suspend/3.3V

AC/HDA_SDIN1

B29

I/O CMOS

3.3V Suspend/3.3V

AC/HDA_SDIN0

B30

I/O CMOS

3.3V Suspend/3.3V

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

GBE0_MDI0+

A13

I/O Analog

3.3V max Suspend

GBE0_MDI0-

A12

I/O Analog

3.3V max Suspend

GBE0_MDI1+

A10

I/O Analog

3.3V max Suspend

GBE0_MDI1-

A9

I/O Analog

3.3V max Suspend

GBE0_MDI2+

A7

I/O Analog

3.3V max Suspend

GBE0_MDI2-

A6

I/O Analog

3.3V max Suspend

GBE0_MDI3+

A3

I/O Analog

3.3V max Suspend

GBE0_MDI3-

A2

I/O Analog

3.3V max Suspend

GBE0_ACT#

B2

OD CMOS

3.3V Suspend/3.3V

Gigabit Ethernet Controller 0 activity indicator, active low.

GBE0_LINK#

A8

OD CMOS

3.3V Suspend/3.3V

Gigabit Ethernet Controller 0 link indicator, active low.

GBE0_LINK100#

A4

OD CMOS

3.3V Suspend/3.3V

Gigabit Ethernet Controller 0 100 Mbit / sec link indicator, active low.

GBE0_LINK1000# A5

OD CMOS

3.3V Suspend/3.3V

Gigabit Ethernet Controller 0 1000 Mbit / sec link indicator, active low.

GBE0_CTREF

A14

REF

GND min 3.3V max

1.9V

Reference voltage for Carrier Board Ethernet channel 0 magnetics center
tap. The reference voltage is determined by the requirements of the
Module PHY and may be as low as 0V and as high as 3.3V.
The reference voltage output shall be current limited on the Module. In
the case in which the reference

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

SATA0_TX+

A16

O SATA

AC coupled on Module

SATA0_TX-

A17

O SATA

AC coupled on Module

SATA0_RX+

A19

I SATA

AC coupled on Module

SATA0_RX-

A20

I SATA

AC coupled on Module

SATA1_TX+

B16

O SATA

AC coupled on Module

SATA1_TX-

B17

O SATA

AC coupled on Module

SATA1_RX+

B19

I SATA

AC coupled on Module

SATA1_RX-

B20

I SATA

AC coupled on Module

SATA2_TX+

A22

O SATA

AC coupled on Module

SATA2_TX-

A23

O SATA

AC coupled on Module

SATA2_RX+

A25

I SATA

AC coupled on Module

SATA2_RX-

A26

I SATA

AC coupled on Module

SATA3_TX+

B22

O SATA

AC coupled on Module

SATA3_TX-

B23

O SATA

AC coupled on Module

SATA3_RX+

B25

I SATA

AC coupled on Module

SATA3_RX-

B26

I SATA

AC coupled on Module

ATA_ACT#

A28

I/O CMOS

3.3V / 3.3V

ATA (parallel and serial) or SAS activity indicator, active low.

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

PCIE_TX0+

A68

PCIE_TX0-

A69

PCIE_RX0+

B68

PCIE_RX0-

B69

PCIE_TX1+

A64

PCIE_TX1-

A65

PCIE_RX1+

B64

PCIE_RX1-

B65

PCIE_TX2+

A61

PCIE_TX2-

A62

PCIE_RX2+

B61

PCIE_RX2-

B62

PCIE_TX3+

A58

PCIE_TX3-

A59

PCIE_RX3+

B58

PCIE_RX3-

B59

PCIE_TX4+

A55

PCIE_TX4-

A56

PCIE_RX4+

B55

PCIE_RX4-

B56

PCIE_TX5+

A52

PCIE_TX5-

A53

PCIE_RX5+

B52

PCIE_RX5-

B53

PCIE_TX6+

D19

PCIE_TX6-

D20

PCIE_RX6+

C19

PCIE_RX6-

C20

PCIE_TX7+

D22

PCIE_TX7-

D23

PCIE_RX7+

C22

PCIE_RX7-

C23

PCIE0_CK_REF+

A88

PCIE0_CK_REF-

A89

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

PEG_TX0+

D52

PEG_TX0-

D53

PEG_RX0+

C52

PEG_RX0-

C53

PEG_TX1+

D55

PEG_TX1-

D56

PEG_RX1+

C55

PEG_RX1-

C56

PEG_TX2+

D58

PEG_TX2-

D59

PEG_RX2+

C58

PEG_RX2-

C59

PEG_TX3+

D61

PEG_TX3-

D62

PEG_RX3+

C61

PEG_RX3-

C62

PEG_TX4+

D65

PEG_TX4-

D66

PEG_RX4+

C65

PEG_RX4-

C66

PEG_TX5+

D68

PEG_TX5-

D69

PEG_RX5+

C68

PEG_RX5-

C69

PEG_TX6+

D71

PEG_TX6-

D72

PEG_RX6+

C71

PEG_RX6-

C72

PEG_TX7+

D74

PEG_TX7-

D75

PEG_RX7+

C74

PEG_RX7-

C75

PEG_TX8+

D78

PEG_TX8-

D79

PEG_RX8+

C78

PEG_RX8-

C79

PEG_TX9+

D81

PEG_TX9-

D82

PEG_RX9+

C81

PEG_RX9-

C82

PEG_TX10+

D85

PEG_TX10-

D86

PEG_RX10+

C85

PEG_RX10-

C86

PEG_TX11+

D88

PEG_TX11-

D89

PEG_RX11+

C88

PEG_RX11-

C89

PEG_TX12+

D91

PEG_TX12-

D92

PEG_RX12+

C91

PEG_RX12-

C92

PEG_TX13+

D94

PEG_TX13-

D95

PEG_RX13+

C94

PEG_RX13-

C95

PEG_TX14+

D98

PEG_TX14-

D99

PEG_RX14+

C98

PEG_RX14-

C99

PEG_TX15+

D101

PEG_TX15-

D102

PEG_RX15+

C101

PEG_RX15-

C102

PEG_LANE_RV#

D54

I CMOS

3.3V / 3.3V

PCI Express Graphics lane reversal input strap. Pull low on the Carrier
board to reverse lane order.

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

EXCD0_CPPE#

A49

EXCD1_CPPE#

B48

EXCD0_PERST#

A48

EXCD1_PERST#

B47

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

USB0+

A46

USB0-

A45

USB1+

B46

USB1-

B45

USB2+

A43

USB2-

A42

USB3+

B43

USB3-

B42

USB4+

A40

USB4-

A39

USB5+

B40

USB5-

B39

USB6+

A37

USB6-

A36

USB7+

B37

USB7-

B36

USB_0_1_OC#

B44

I CMOS

3.3V Suspend/3.3V

PU 10k to 3.3VSB 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 Board.

USB_2_3_OC#

A44

I CMOS

3.3V Suspend/3.3V

PU 10k to 3.3VSB 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
current monitor on the Carrier Board may drive this line low. Do not
pull this line high on the Carrier Board.

USB_4_5_OC#

B38

I CMOS

3.3V Suspend/3.3V

PU 10k to 3.3VSB USB over-current sense, USB channels 4 and 5. 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.

USB_6_7_OC#

A38

I CMOS

3.3V Suspend/3.3V

PU 10k to 3.3VSB 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.

USB_SSTX0+

D4

USB_SSTX0-

D3

USB_SSRX0+

C4

USB_SSRX0-

C3

USB_SSTX1+

D7

USB_SSTX1-

D6

USB_SSRX1+

C7

USB_SSRX1-

C6

USB_SSTX2+

D10

USB_SSTX2-

D9

USB_SSRX2+

C10

USB_SSRX2-

C9

USB_SSTX3+

D13

USB_SSTX3-

D12

USB_SSRX3+

C13

USB_SSRX3-

C12

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

LVDS_A0+

A71

LVDS_A0-

A72

LVDS_A1+

A73

LVDS_A1-

A74

LVDS_A2+

A75

LVDS_A2-

A76

LVDS_A3+

A78

LVDS_A3-

A79

LVDS_A_CK+

A81

LVDS_A_CK-

A82

LVDS_B0+

B71

LVDS_B0-

B72

LVDS_B1+

B73

LVDS_B1-

B74

LVDS_B2+

B75

LVDS_B2-

B76

LVDS_B3+

B77

LVDS_B3-

B78

LVDS_B_CK+

B81

LVDS_B_CK-

B82

LVDS_VDD_EN

A77

O CMOS

3.3V / 3.3V

LVDS panel power enable

LVDS_BKLT_EN

B79

O CMOS

3.3V / 3.3V

LVDS panel backlight enable

LVDS_BKLT_CTRL B83

O CMOS

3.3V / 3.3V

LVDS panel backlight brightness control

LVDS_I2C_CK

A83

I/O OD

3.3V / 3.3V

N.C.

I2C clock output for LVDS display use

LVDS_I2C_DAT

A84

I/O OD

3.3V / 3.3V

N.C.

I2C data line for LVDS display use

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

LPC_AD0

B4

LPC_AD1

B5

LPC_AD2

B6

LPC_AD3

B7

LPC_FRAME#

B3

O CMOS

3.3V / 3.3V

LPC frame indicates the start of an LPC cycle

LPC_DRQ0#

B8

LPC_DRQ1#

B9

LPC_SERIRQ

A50

I/O CMOS

3.3V / 3.3V

LPC serial interrupt

LPC_CLK

B10

O CMOS

3.3V / 3.3V

PU 10K

LPC clock output - 33MHz nominal

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

SPI_CS#

B97

O CMOS

3.3V Suspend/3.3V

Chip select for Carrier Board SPI - may be sourced from chipset SPI0 or SPI1

SPI_MISO

A92

I CMOS

3.3V Suspend/3.3V

Data in to Module from Carrier SPI

SPI_MOSI

A95

O CMOS

3.3V Suspend/3.3V

Data out from Module to Carrier SPI

SPI_CLK

A94

O CMOS

3.3V Suspend/3.3V

Clock from Module to Carrier SPI

SPI_POWER

A91

O

3.3V Suspend/3.3V

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

BIOS_DIS0#

A34

BIOS_DIS1#

B88

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

VGA_RED

B89

O Analog

Analog

PD 150Rx2

Red for monitor. Analog output

VGA_GRN

B91

O Analog

Analog

PD 150Rx2

Green for monitor. Analog output

VGA_BLU

B92

O Analog

Analog

PD 150Rx2

Blue for monitor. Analog output

VGA_HSYNC

B93

O CMOS

3.3V / 3.3V

Horizontal sync output to VGA monitor

VGA_VSYNC

B94

O CMOS

3.3V / 3.3V

Vertical sync output to VGA monitor

VGA_I2C_CK

B95

I/O OD

3.3V / 3.3V

PD 2.2K to 3.3V

DDC clock line (I2C port dedicated to identify VGA monitor capabilities)

VGA_I2C_DAT

B96

I/O OD

3.3V / 3.3V

PD 2.2K to 3.3V

DDC data line.

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

SER0_TX

A98

O CMOS

5V / 12V

General purpose serial port 0 transmitter

SER0_RX

A99

I CMOS

5V / 12V

General purpose serial port 0 receiver

SER1_TX

A101

O CMOS

5V / 12V

General purpose serial port 1 transmitter

SER1_RX

A102

I CMOS

5V / 12V

General purpose serial port 1 receiver

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

I2C_CK

B33

I/O OD

3.3V Suspend/3.3V

PU 2.2K to

General purpose I2C port clock output

I2C_DAT

B34

I/O OD

3.3V Suspend/3.3V

PU 2.2K to

General purpose I2C port data I/O line

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 / 12V

Fan speed control. Uses the Pulse Width Modulation (PWM) technique to control the fan's
RPM.

FAN_TACHIN

B102

I OD CMOS

3.3V / 12V

PU 10K to 3.3V

Fan tachometer input for a fan with a two pulse output.

TPM_PP

A96

I CMOS

3.3V / 3.3V

Trusted Platform Module (TPM) Physical Presence pin. Active high.

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

PWRBTN#

B12

I CMOS

3.3V Suspend/3.3V

PU 10K to 3.3VSB 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.

SYS_RESET#

B49

I CMOS

3.3V Suspend/3.3V

PU 10K to 3.3VSB 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.

CB_RESET#

B50

O CMOS

3.3V Suspend/3.3V

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

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

Indicates imminent suspend operation; used to notify LPC devices.

SUS_S3#

A15

O CMOS

3.3V Suspend/3.3V

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

Indicates system is in Suspend to Disk state. Active low output.

SUS_S5#

A24

O CMOS

3.3V Suspend/3.3V

Indicates system is in Soft Off state.

WAKE0#

B66

I CMOS

3.3V Suspend/3.3V

PU 10K to 3.3VSB PCI Express wake up signal.

WAKE1#

B67

I CMOS

3.3V Suspend/3.3V

PU 10K to 3.3VSB General purpose wake up signal. May be used to implement wake-up

on PS2 keyboard or mouse activity.

BATLOW#

A27

I CMOS

3.3V Suspend/ 3.3V

PU 10K to 3.3VSB Indicates that external battery is low.

LID#

A103

I OD CMOS

3.3V Suspend/12V

PU 10K to 3.3VSB LID switch. Low active signal used by the ACPI operating system for a LID switch.

SLEEP#

B103

I OD CMOS

3.3V Suspend/12V

PU 10K to 3.3VSB Sleep button. Low active signal used by the ACPI operating system to bring the

system to sleep state or to wake it up again.

THRM#

B35

I CMOS

3.3V / 3.3V

PU 8.2K to 3.3V

Input from off-Module temp sensor indicating an over-temp situation.

THRMTRIP#

A35

O CMOS

3.3V / 3.3V

PU 10K to 3.3V

Active low output indicating that the CPU has entered thermal shutdown.

SMB_CK

B13

I/O OD

3.3V Suspend/3.3V

PU 2.2K to

System Management Bus bidirectional clock line.

SMB_DAT

B14

I/O OD

3.3V Suspend/3.3V

PU 2.2K to

System Management Bus bidirectional data line.

SMB_ALERT#

B15

I CMOS

3.3V Suspend/3.3V

System Management Bus Alert – active low input can be used to
generate an SMI# (System Management Interrupt) or to wake the system.

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

GPO0

A93

GPO1

B54

GPO2

B57

GPO3

B63

GPI0

A54

GPI1

A63

GPI2

A67

GPI3

A85

Signal

Pin#

Pin Type

Pwr Rail /Tolerance

PU/PD

Description

VCC_12V

A104~A109
B104~B109
C104~C109
D104~D109

Power

Primary power input: +12V nominal. All available VCC_12V pins on the connector(s) shall be
used.

VCC_5V_SBY

B84~B87

Power

Standby power input: +5.0V nominal. If VCC5_SBY is used, all
available VCC_5V_SBY pins on the connector(s) shall be used. Only
used for standby and suspend functions. May be left unconnected if
these functions are not used in the system design.

VCC_RTC

A47

Power

Real-time clock circuit-power input. Nominally +3.0V.

GND

A1, A11, A21, A31,
A41, A51, A57,
A60, A66, A70,
A80, A90, A100,
A110, B1, B11, B21
,B31, B41, 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,

Power

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.

AC97/HDA Signals Descriptions

Serial TDM data inputs from up to 3 CODECs.

Gigabit Ethernet Signals Descriptions

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+/-

Serial ATA or SAS Channel 1 receive differential pair.

Serial ATA or SAS Channel 2 transmit differential pair.

Serial ATA or SAS Channel 2 receive differential pair.

SATA Signals Descriptions

Serial ATA or SAS Channel 0 transmit differential pair.

Serial ATA or SAS Channel 0 receive differential pair.

Serial ATA or SAS Channel 1 transmit differential pair.

Serial ATA or SAS Channel 3 transmit differential pair.

Serial ATA or SAS Channel 3 receive differential pair.

PCI Express Lanes Signals Descriptions

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 0

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 1

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 2

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 0

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 1

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 3

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 4

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 2

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 3

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 5

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 6

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 4

O PCIE

AC coupled on Module

PCI Express Differential Transmit Pairs 5

I PCIE

AC coupled off Module N.C.

PCI Express Differential Receive Pairs 7

O PCIE

PCIE

Reference clock output for all PCI Express and PCI Express Graphics lanes.

I PCIE

AC coupled off Module

PCI Express Differential Receive Pairs 6

O PCIE

AC coupled on Module N.C.

PCI Express Differential Transmit Pairs 7

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 1

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 1

PEG Signals Descriptions

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 0

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 0

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 3

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 3

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 2

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 2

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 5

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 5

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 4

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 4

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 7

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 7

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 6

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 6

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 9

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 9

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 8

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 8

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 11

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 11

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 10

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 10

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 13

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 13

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 12

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 12

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 15

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 15

O PCIE

AC coupled on Module

PCI Express Graphics transmit differential pairs 14

I PCIE

AC coupled off Module

PCI Express Graphics receive differential pairs 14

ExpressCard Signals Descriptions

I CMOS

3.3V /3.3V

PU 10k to 3.3V

PCI ExpressCard: PCI Express capable card request, active low, one per card

O CMOS

3.3V /3.3V

PCI ExpressCard: reset, active low, one per card

I/O USB

3.3V Suspend/3.3V

USB differential pairs 2

I/O USB

3.3V Suspend/3.3V

USB differential pairs 3

USB Signals Descriptions

I/O USB

3.3V Suspend/3.3V

USB differential pairs 0

I/O USB

3.3V Suspend/3.3V

USB differential pairs 1

I/O USB

3.3V Suspend/3.3V

USB differential pairs 6

I/O USB

3.3V Suspend/3.3V

USB differential pairs 7, USB7 may be configured as a USB client or as a host, or both, at the
Module designer's discretion.

I/O USB

3.3V Suspend/3.3V

USB differential pairs 4

I/O USB

3.3V Suspend/3.3V

USB differential pairs 5

O PCIE

AC coupled on Module

Additional transmit signal differential pairs for the SuperSpeed USB data path.

I PCIE

AC coupled off Modul

Additional receive signal differential pairs for the SuperSpeed USB data path.

O PCIE

AC coupled on Module

Additional transmit signal differential pairs for the SuperSpeed USB data path.

I PCIE

AC coupled off Modul

Additional receive signal differential pairs for the SuperSpeed USB data path.

O PCIE

AC coupled on Module

Additional transmit signal differential pairs for the SuperSpeed USB data path.

I PCIE

AC coupled off Modul

Additional receive signal differential pairs for the SuperSpeed USB data path.

O PCIE

AC coupled on Module

Additional transmit signal differential pairs for the SuperSpeed USB data path.

I PCIE

AC coupled off Modul

Additional receive signal differential pairs for the SuperSpeed USB data path.

O LVDS

LVDS

O LVDS

LVDS

LVDS Signals Descriptions

O LVDS

LVDS

LVDS Channel A differential pairs

O LVDS

LVDS

O LVDS

LVDS

LVDS Channel A differential clock

O LVDS

LVDS

LVDS Channel B differential pairs

O LVDS

LVDS

O LVDS

LVDS

I/O CMOS

3.3V / 3.3V

LPC multiplexed address, command and data bus

O LVDS

LVDS

O LVDS

LVDS

I CMOS

3.3V / 3.3V

General purpose input pins.

Power and GND Signal Descriptions

Pin Types
I Input to the Module
O Output from the Module
I/O Bi-directional input / output signal
OD Open drain output

VGA Signals Descriptions

Serial Interface Signals Descriptions

Miscellaneous Signal Descriptions

Power and System Management Signals Descriptions

GPIO Signals Descriptions

O CMOS

3.3V / 3.3V

General purpose output pins.

I CMOS

3.3V / 3.3V

LPC serial DMA request

SPI Signals Descriptions

I CMOS

NA

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.

LVDS Channel B differential clock

LPC Signals Descriptions