NuIPC
cPCI-6760DK/P5
6U CompactPCI Highly Integrated Single Slot
Dual Bridge Low Power Pentium-III CPU Module
User’s Guide
Recycled Paper
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Questions
Product Model
OS:
Computer Brand:
M/B:
CPU:
Environment to Use
Chipset:
BIOS:
Video Card:
Network Interface Card:
Other:
Detail Description
Suggestions to ADLINK
Table of Contents
List of Tables...................................................................................... iii
Chapter 1 Introduction........................................................................ 1
1.1 Checklist...................................................................................................1
1.2 Description ...............................................................................................3
1.3 Features...................................................................................................4
1.4 Specifications...........................................................................................4
1.4.1
1.4.2
Specifications of the cPCI-6760DK/P5 .......................................4
Peripheral Connectivity for cPCI-6760DK/P5 .............................9
1.5 Functional Block Diagram ......................................................................10
1.6 Mechanical outline drawing....................................................................11
1.6.1
Outline drawing for cPCI-6760DK/P5 CPU board.....................11
Chapter 2 Jumpers and Connectors ............................................... 12
2.1 Jumpers, Connectors and LED Indicators on the cPCI-6760DK/P5 ......16
2.1.1
2.1.2
JP1 on cPCI-6760DK/P5 ..........................................................17
Keyboard and Mouse Combo Connector (CN4) on the
cPCI-6760DK/P5 ......................................................................17
Ethernet Connectors (CN6, 7) ..................................................18
Serial Port COM1 Connector (CN1)..........................................18
VGA Connector (CN3)..............................................................18
USB (Port A) Connector (CN5).................................................18
Secondary IDE Connectors (44-pin, CN2)................................19
Primary IDE Interface (40-pin, CN11).......................................20
Parallel Port Connector on DB-6760J3 (CN9)..........................21
2.1.3
2.1.4
2.1.5
2.1.6
2.1.7
2.1.8
2.1.9
2.1.10 FDD Interface (34-pin, CN10)...................................................21
2.1.11 Ping header P3 Pin Assignments .............................................22
2.1.11 CompactPCI J1 Pin Assignments.............................................23
2.1.12 CompactPCI J2 Pin Assignments.............................................24
2.1.13 CompactPCI J4 Pin Assignments.............................................25
2.1.14 CompactPCI J5 Pin Assignments.............................................26
2.1.15 LAN Port Indicators (Integrated in LAN1 (CN6) and LAN2
(CN7)).......................................................................................27
2.1.16 IDE Activity LED Indication......................................................28
2.1.17 Power LED Indication ...............................................................28
2.1.18 WDT LED Indication.................................................................28
Table of Contents · i
Chapter 3 Getting Started................................................................. 29
3.1 CPU Installation..................................................................................... 30
3.2 Memory Installation ............................................................................... 30
3.3 CF Installation ....................................................................................... 31
3.3.1
3.3.2
DB-6760CF Outline, Jumper and Connectors ......................... 32
DB-6760CF Installation for cPCI-6760DK/P5 and CF card
notice ....................................................................................... 33
Removing the DB-6760CF from the cPCI-6760DK/P5 ............ 33
3.3.3
3.4 HDD Installation .................................................................................... 34
3.4.1
3.4.2
HDD/FFD Installation for cPCI-6760DK/P5 ............................. 34
Removing HDD/FFD from cPCI-6760DK/P5............................ 35
3.5 Device Connection for OS Installation................................................... 35
3.5.1
Using the cPCI-6760DK/P5 with ADLINK’s cBP-6108 and
6515 series backplane............................................................. 35
Using the cPCI-6760DK/P5 on other backplanes.................... 35
3.5.2
3.6 Notice for Rear I/O Connection ............................................................. 36
3.6.1
3.6.2
The I/O implementation is only supported by rear I/O board ... 36
The I/O implementation is supported by both rear I/O and front
I/O............................................................................................ 36
LAN1, LAN2 Front and Rear I/O Connecting Selection........... 37
3.6.3
Chapter 4 Driver Installation ............................................................ 38
4.1 VGA Drivers Installation ........................................................................ 39
4.1.1
4.1.2
4.1.3
Driver Installation on Windows 2000 ....................................... 39
Driver Installation on Windows 98 ........................................... 40
Driver Installation on Windows NT........................................... 41
4.2 LAN Drivers Installation......................................................................... 42
4.2.1
4.2.2
4.2.3
4.2.4
Software and Drivers Support.................................................. 42
Driver Installation on Windows 2000 ....................................... 42
Driver Installation on Windows 98 ........................................... 43
Driver Installation on Windows NT........................................... 44
Chapter 5 Watchdog and Utilities.................................................... 45
5.1 Watchdog Timer Configuration ............................................................. 45
5.1.1
5.1.2
WDT Programming .................................................................. 46
How to Test the WDT? ............................................................ 46
5.2 Hardware Doctor Utility.......................................................................... 47
5.3 Intel Preboot Execution Environment (PXE).......................................... 48
5.4 Intel Adapter Teaming........................................................................... 49
Warranty Policy ................................................................................. 50
ii · Table of Contents
List of Tables
Table 1:
Table 2:
Table 3:
Table 4:
cPCI-6760DK/P5 functional table ................................................3
Peripheral Connectivity for cPCI-6760DK....................................9
JP1 Clear CMOS content...........................................................17
Keyboard/Mouse Combo Connector (CN4) on
cPCI-6760DK/P5 front board.....................................................17
Table 5:
Ethernet Connector LAN1 (CN6) and LAN2 (CN7) on
cPCI-6760DK/P5 front board.....................................................18
Table 6:
Table 7:
Table 8:
Table 9:
Table 10:
Table 11:
Table 12:
Serial Port COM1 (CN1) on cPCI-6760DK/P5 front board.........18
VGA Connector (CN3) on cPCI-6760DK/P5 front board ...........18
USB Connector (CN5) on cPCI-6760DK/P5 front board............18
Primary IDE channel (CN11) on DB-6760J3 .............................20
Parallel Ports LPT1 (CN9) on DB-6760J3 .................................21
FDD Interface (CN3) on DB-6760J3..........................................21
Ping header P3 pin assignments on cPCI-6760DK and
DB-6760J3.................................................................................22
Table 13:
Table 14:
Table 15:
Table 16:
Table 17:
Table 18:
Table 19:
Table 20:
Table 21:
Table 22:
Table 23:
Table 24:
CompactPCI J1 pin assignments...............................................23
CompactPCI J2 Pin Assignments..............................................24
ComapctPCI J4 pin assignments...............................................25
CompactPCI J5 pin assignments...............................................26
Amber LED indication in LAN port.............................................27
Green LED indication in LAN port..............................................27
IDE Activity LED indication ........................................................28
Power LED indication ................................................................28
WDT LED indication ..................................................................28
JP1 DB-6760CF Master/Slave Setting.......................................32
LAN1 Connecting Selection.......................................................37
LAN2 Connecting Selection.......................................................37
List of Tables · iii
1
Introduction
This manual is designed to give you information on the cPCI-6760DK/P5
single board computer module. The topics covered in this chapter are as
follows:
·
·
·
·
·
·
Checklist
Descriptions
Features
Specifications
Functional block diagram
Mechanical outline drawing
1.1 Checklist
The default version of cPCI-6760DK/P5 includes pre-installed 64MB RAM
and CF card socket. However, the CPU module may be equipped with
different capacity of RAM or HDD by request. Please check your
configurations with your dealer and check that your package is complete and
contains the items below. If you discover damaged or missing items, please
contact with your dealer.
·
The cPCI-6760DK/P5 SBC (May be equipped with different capacity of
RAM or HDD. Those items may vary according to the different
configuration request. The CPU is pre-soldered and the CPU heatsink is
pre-mounted.)
·
One 2.5” ATA HDD accessory pack (P/N: 58-00023-000) including
special designed 44-wire connection cable and screw kit. (This
accessory pack will not be available if 2.5” ATA HDD is pre-mounted by
request.)
Introduction · 1
·
One DB-6760CF removable CompactFlash socket adaptor (which is
pre-mounted on the CPU module for the standard configuration delivery.
The DB-6760CF may not be included if customer request
pre-configuring 2.5” ATA HDD or by OEM project request.)
Y cable for PS/2 keyboard and mouse connection. (P/N: 30-01016-000)
This User’s Manual
·
·
·
ADLINK CD
Note: The delivery package of the cPCI-6760DK/P5 OEM version
(non-standard configuration, functionality, customized logo,
modified faceplate or package) may vary according to the
different customization request.
2 · Introduction
1.2 Description
ADLINK’s cPCI-6760DK/P5 is a powerful and flexible CompactPCI host slot
processor board based on the Intel BGA2 Mobile (or Low Voltage) Pentium III
processor. This board is specially designed to add total system functional
density to ADLINK’s 6U CompactPCI platform for CTI and Telecom
applications. It is also suitable for clustering high-availability, high-density and
high-reliability embedded applications where performance and a rich feature
set are mandatory.
The CPU module uses the well-proven Intel 440BX chipset, which supports a
processor front side bus (FSB) running at 100MHz and PC-100 SDRAM up to
512MB, making the cPCI-6760DK/P5 performs outstand from its peers.
Moreover, the Embedded Intel Architecture guarantees long life availability.
The highly integrated design makes the cPCI-6760DK/P5 fully functional
within only single slot space. User can access RS-232, AGP-VGA, LPT, USB,
Keyboard, Mouse and Dual Ethernet ports on the front panel.
cPCI-6760DK/P5 functional Table
Model
cPCI-6760DK/P5
Processor
Processor FSB
Chipset
Intel BGA2 Pentium-III 500MHz
100 MHz
Intel 440BX
Memory Size
Memory Type
Graphic
Up to 512MB, Pre-installed 64MB
PC-100 SDRAM in 144-pin SO-DIMM
SMI SM721
Video Memory
Serial Port
Parallel Port
USB
Build-in SM721 4MB VRAM
1
1
1
Ethernet Port
EIDE
2 Ports (Intel 82559)
2 UDMA-33 channels*
Yes
FDD I/F
Flash Storage
cPCI Slots Support
Removable CompactFlash Socket
14 slots, all bus mastering
Table 1: cPCI-6760DK/P5 functional table
Introduction · 3
1.3 Features
·
·
·
·
PICMG 2.0 CompactPCI Specification R.3.0 Compliant
PICMG 2.7 CompactPCI Dual System Bus specification R1.0 compliant
Standard 6U form factor, 1-slot (4TE/HP) width
Pre-mounted low voltage BGA2 Pentium-III 500MHz CPU with 100MHz
FSB
·
Pre-installed 64MB 144-pin SO-DIMM PC-100 RAM, support up to
512MB
·
·
Build-in housing for 2.5” low profile HDD
Supports up to 1 USB ports, 1 serial port, 1 parallel port, 1 floppy
interface
·
·
Supports 14 bus-master PCI devices on CompactPCI bus peripheral
slots
On-board high performance AGP 2x VGA display output by SMI SM721
controller
·
·
·
·
Supports up to dual 10/100Mb Ethernet ports
Supports Intel pre-boot execution environment (PXE) for boot from LAN
Pre-installed CompactFlash type-II socket via removable daughter board
Supports remote console on Serial ports
1.4 Specifications
1.4.1 Specifications of the cPCI-6760DK/P5
General CompactPCI Features
·
·
·
PCI Rev.2.1 compliant
PICMG 2.0 CompactPCI Specification R.3.0 Compliant
PICMG 2.7 CompactPCI Dual System Bus specification R1.0 compliant
Form Factor
·
·
Standard 6U CompactPCI (board size: 233.35mm x 160mm)
1-slot (4 TE/HP, 20.32mm) width, incl. housing of 2.5” HDD
CPU/Cache
Intel BGA2 Low Voltage Pentium III with 256KB on-die L2 cache @
500MHz speed & 100MHz FSB
·
4 · Introduction
Chipset
·
·
Intel 440BX AGPset
Intel 82443BX and 82371EB(PIIX4E)
BIOS: Award PnP BIOS
·
·
·
BIOS write protection, provide anti-virus capability
On-board Ethernet disable selectable
DMI BIOS Support: Desktop Management Interface (DMI) allows users to
download system hardware-level information such as CPU type, CPU
speed, internal/external frequencies and memory size.
Supports Intel pre-boot execution environment (PXE) for boot from LAN
Remote Console: setup console redirection to serial ports (terminal
mode) with CMOS setup access
·
·
Note: Due to the BIOS segment limitation, enable the remote console
function may occupy the same memory space for other
ROM-mapping add-on or boot-up devices such like Pre-boot
Agent of Ethernet Boot ROM, SCSI Boot ROM or add-on EIDE
Boot ROM. It is recommended to enable only one ROM-mapping
add-on or boot-up device when enable the remote console
function.
Host Memory
·
Two 144-pin SO-DIMM sockets, Max. 512MB PC-100 un-buffered
SDRAM
·
Pre-installed 64MB PC-100 SD-RAM on SO-DIMM socket
IDE Ports
·
Bus Master IDE controller supports two EIDE interfaces by DB-6760J3
(40-pin) and onboard 44 pin IDE connector for up to four IDE devices,
including HDD and ATAPI CD-ROM drives. 44-pin secondary EIDE
connector supports on-board 2.5” notebook size HDD or Flash2000TM
flash disk.
·
One CompactFlash type-II socket on removable daughter board for front
CPU module.
Note: CompactFlash daughter board (DB-6760CF) occupies the same
space of 2.5” ATA HDD. cPCI-6760DK/P5 supports on-module
one 2.5” ATA HDD or one CompactFlash socket, but not both.
Introduction · 5
On Board Super I/O
·
·
Winbond W83977EF
Supports high-speed bi-directional SPP/EPP/ECP parallel ports (DB-25
connector) on front panel with ESD protection to 4KV and downstream
device protection to 30V.
·
·
One floppy interface by daughter board (DB-6760J3), support two floppy
drives (360KB, 720KB, 1.2MB, 1.44MB, 2.88MB.) 34-pin floppy
connector is available on DB-6760J3.
One 16C550 UARTs compatible RS-232 COM1 port with ESD protection
to 2KV on front CPU module.
USB Interface
·
·
·
Supports one USB ports.
USB Specification Rev. 1.1. compliant
Individual over-current protection
Watch-dog Timer
·
Programmable I/O port 3F0h and 3F1h to configure watchdog timer,
programmable timer 1~255 seconds or 1~255 minutes
·
Bundled easy-programming library for DOS, Windows 95, 98, NT
Hardware Monitoring
·
Winbond W83782D, monitoring CPU temperature, CPU fan, system
temperature and DC Voltages
On-board VGA Display
·
·
·
·
·
AGP 2x VGA controller SMI Lynx3DM SM721, with build-in 4M VRAM
High performance, 128-bit, single clock cycle 2D drawing engine
High performance, power managed 3D acceleration engine
AGP 2x, ACPI, VESA DPMS and VESA DDC 2b compliant
Supports up to 1280x1024 VGA display resolution with 24-bit true color,
non-interlaced
·
Supports up to 1600x1200 VGA display resolution with 16-bit high color
at 60Hz refresh rate under WindowsNT(note)
·
·
RAMDAC Latch-up protection
Driver supporting: Windows95/98/ME/NT/2000, Linux, OS/2
6 · Introduction
Note: The 1600x1200 VGA display resolution is a non-standard
configuration. It needs special modified BIOS with drivers, which
can ONLY be supported under Windows NT operating system.
The BIOS may cause incompatible issues with other OS. The
standard BIOS can support resolutions up to 1280x1024 under
all operating systems listed above.
On-board Ethernet supporting
·
·
·
·
·
·
·
Two Ethernet ports featuring by two Intel 82559 Ethernet controller.
IEEE 802.3 10Base-T and 100Base-TX compatible
IEEE 802.3u Auto-negotiation support
IEEE 802.3x 100Base-TX flow control support
Full duplex support at both 10 and 100 Mbps operation
Supports Intel pre-boot execution environment (PXE) for boot from LAN
Supports Intel adapter teaming functions including Fault Tolenrence,
Adaptive Load Balancing (ALB), Fast Ethernet Channel (FEC) and Link
Aggregation.
OS Compatibility
MS-DOS 6.2+, Windows 95/98/ME, Windows NT 4.0, Windows 2000,
Windows XP, Red Hat Linux 7.2 and VxWorks
Flash Disk Supporting
·
·
Pre-installed CompactFlash type-II socket by removable transition
daughter board.
On-board housing for Flash2000TM 2.5” flash disk on front CPU module
·
PCI Bus Bridge
·
·
Dual TI PCI2050 transparent PCI to PCI bridge
Supports up to 14 PCI bus mastering devices on CompactPCI bus
peripheral slots
Front Panel LEDs and switch
·
·
·
Power status (green)
IDE activity indicator (red)
Ethernet (integrated with RJ-45): 10/100Mb (amber), link and activity
(green)
·
·
Watchdog timer status indicator (amber)
Flush tact switch for system reset
Introduction · 7
Environment
·
·
·
·
·
Operating temperature: 0 to 60°C (Note)
Storage temperature: -20 to 80°C
Humidity: 5% to 95% non-condensed
Shock: 15G peak-to-peak, 11ms duration, non-operation
Vibration:
ü Non-operation: 1.88Grms, 5-500Hz, each axis
ü Operation: 0.5Grms, 5-500Hz, each axis, with 2.5” HDD
Note: 1. System forced cooling airflow with minimum 5 CFM is required
for cPCI-6760DK/P5
2. Due to environmental limitation differences from one
component to another; please refer to the component
specification when users wishes to mount a HDD on to the
cPCI-6760DK. The operating temperature was tested with the
HDD cabling outside the testing chamber, and with a Low
Voltage Pentium-III 500MHz CPU.
3. The vibration limitation of operation is caused by the 2.5” ATA
HDD. If users wish to deploy the cPCI-6760DK/P5 into a high
vibrating environment, we suggest users to adopt Flash2000
Flash Disk (FFD series) or CompactFlash Card to replace the
2.5” ATA HDD.
Safety Certificate and Test
·
·
CE, FCC Class B
HALT (temperature and vibration stress)
Power Consumption
Configurations
+5V
+3.3V
+12V
-12V
Low Power Pentium III 500MHz,
256MB with cPCI-R6760D
2.75A 3.5A 157mA 0mA
Note: The above values are the measured power consumption for SBC
with CPU and RAM only; the CPU is running at 100% loading with
HCT, Kpower and burn-in test programs under Windows 2000
Professional. The powers for all the other peripheral devices
such as add-on cards, HDD, or CD-ROM are not included.
8 · Introduction
1.4.2 Peripheral Connectivity for cPCI-6760DK/P5
Peripheral Connectivity for cPCI-6760DK/P5
Front (cPCI-6760DK/P5)
I/O
Faceplate
Y (DB-9)
Y (DB-25)
Y (PS/2)
---
Board
---
---
---
Serial Port (COM1)
Parallel Port (via DB-6760J3)
PS/2 Keyboard and Mouse
Floppy (via DB-6760J3)
Ultra DMA 33 Primary EIDE
(Via DB-6760J3)
Y (34-pin)
---
Y (40-pin)
Ultra DMA 33 Secondary EIDE
USB A
10/100Mb Ethernet Port 1
10/100Mb Ethernet Port 2
VGA
---
Y
Y (44-pin)
---
---
---
---
---
---
Y (RJ-45)
Y (RJ-45)
Y (DB-15)
Y
LEDs
Reset button
Y
CompactFlash (via daughter
board)
---
Y (CF-II)
Table 2: Peripheral Connectivity for cPCI-6760DK
Introduction · 9
1.5 Functional Block Diagram
Low Power
Mobile CPU
Host Bus 100MHZ
SO-DIMM
440 BX
PIIX4E
SMI721
AGP BUS
66MHZ
Memory BUS
100MHZ
P
M
C
PCI Bus 33MHZ
I
D
E
INTEL
82559
BRIDGE
PCI2050
U
S
B
ISA Bus 16MHZ
HWM
W83782D
BIOS
Super I/O
PRT
MS
KB
COM
FDD
10 · Introduction
1.6 Mechanical outline drawing
1.6.1 Outline drawing for cPCI-6760DK/P5 CPU board
Introduction · 11
2
Jumpers and Connectors
This chapter provides information on how to use the jumpers and connectors
on the cPCI-6760DK/P5 in order to set up a workable system. We also
describe the meaning of each LED indicator. The topics covered are:
·
Jumpers, Connectors and LED indicators on the cPCI-6760DK/P5
12 · Jumpers and Connectors
·
Jumpers and connectors map of cPCI-6760DK/P5 series front board.
TOP View
Super I/O
South Bridge
PIIX4E 82371EB
JP1
8 2 3 7 1 E B
P C I s e t
J5
J4
e
l t n i
BIOS
44-pin
Secondary
EIDE (CN2)
144Pin SO-DIMM
144Pin SO-DIMM
North Bridge 82443BX
SMI VGA
SM721
i82559
J2
J1
Low Power
BGA2 CPU
with Heatsink
Jumpers and Connectors · 13
·
Connectors map of cPCI-6760DK/P5 ‘s daughter board (DB-6760J3).
TOP View
CN10
FDD
CN11
IDE
CN9
LPT
P3
14 · Jumpers and Connectors
·
Jumpers and connectors map of cPCI-6760DK/P5 series front board.
Bottom and Front Panel View
CO
M1
COM1
(CN1)
P2P Bridge
PCI2050
Reserved for
ECC RAM
VG
A
VGA
(CN3)
LPT
(CN9)
S1
S3
Keyboard and
Mouse (CN4)
KB/
MS
US
B
USB (CN5)
LAN1 (CN6)
LAN2 (CN7)
LA
N1
P2P Bridge
PCI2050
LA
N2
Reset &
LEDs
P
W
H
S
H
D
W
R
ST
D
Jumpers and Connectors · 15
2.1 Jumpers, Connectors and LED Indicators on the
cPCI-6760DK/P5
The jumpers on the cPCI-6760DK/P5 CPU board allow you to configure your
CPU module according to the needs of your applications. If you have doubts
about the best jumper configuration for your needs, contact your dealer or
sales representative.
The connectors on the cPCI-6760DK/P5 CPU board allows you to connect
devices such as keyboard, mouse, VGA, COM port, Ethernet etc.
The LED indicators on the cPCI-6760DK/P5 front board show you the
information regarding to your system’s status.
The following information lists the jumpers, connectors and LEDs on the
cPCI-6760DK/P5 CPU board and their respective functions.
Jumper Setting Information for cPCI-6760DK/P5 Front Board
2.1.1
JP1 on cPCI-6760DK/P5 ..........................................................17
Connector Pin Assignments Information for cPCI-6760DK/P5
2.1.2
Keyboard and Mouse Combo Connector (CN4) on
cPCI-6760DK/P5 ......................................................................17
2.1.3
2.1.4
2.1.5
2.1.6
2.1.7
2.1.8
2.1.9
Ethernet Connectors (CN6, 7) ..................................................18
Serial Port COM1 Connector (CN1)..........................................18
VGA Connector (CN3)..............................................................18
USB (Port A) Connector (CN5).................................................18
Secondary IDE Connectors (44-pin, CN2)...............................19
Primary IDE Interface (40-pin, CN11).......................................20
Parallel Port Connector on DB-6760J3 (CN9)..........................21
2.1.10 FDD Interface (34-pin, CN10)...................................................21
2.1.11 Ping header P3 Pin Assignments .............................................22
2.1.11 CompactPCI J1 Pin Assignments.............................................23
2.1.12 compactPCI J2 Pin Assignments..............................................24
2.1.13 compactPCI J4 Pin Assignments..............................................25
2.1.14 compactPCI J5 Pin Assignments..............................................26
LED and Switch Setting Information for cPCI-6760DK/P5 Front Board
2.1.15 LAN Port Indicators (Integrated in LAN1 (CN6) and LAN2
(CN7))
..................................................................................27
2.1.16 IDE Activity LED Indication.......................................................28
2.1.17 Power LED Indication ...............................................................28
2.1.18 WDT LED Indication.................................................................28
16 · Jumpers and Connectors
Note There are no jumper settings for front side bus (FSB) and CPU
speed selection because the cPCI-6760DK/P5 is equipped with
a pre-soldered BGA2 CPU that is mounted during SMT
manufacturing.
2.1.1 JP1 on cPCI-6760DK/P5
JP1
Setting
Function
Pin 1-2
Short/Closed
Clear CMOS
Content
1
1
3
3
Pin 2-3
Short/Closed
Normal Operation
(Default)
Table 3: JP1 Clear CMOS content
2.1.2 Keyboard and Mouse Combo Connector (CN4) on the
cPCI-6760DK/P5
Pin #
Signal
KBDATA
MSDATA
GND
Function
1
2
3
4
5
6
Keyboard Data
Mouse Data
Ground
+5V
Power
KBCLK
MSCLK
Keyboard Clock
Mouse Clock
Table 4: Keyboard/Mouse Combo Connector (CN4) on cPCI-6760DK/P5 front board
Note: User can use a Y-cable for connecting PS/2 keyboard and
mouse on this connector. User also can directly connect a PS/2
keyboard on this connector when mouse is not needed.
Jumpers and Connectors · 17
2.1.3 Ethernet Connectors (CN6, 7)
Pin #
Signal Name
TD+
1
2
3
TD-
RD+
6
RD-
Table 5: Ethernet Connector LAN1 (CN6) and LAN2 (CN7) on cPCI-6760DK/P5 front
board
2.1.4 Serial Port COM1 Connector (CN1)
Pin #
Signal Name
DCD, Data carrier detect
RXD, Receive data
TXD, Transmit data
DTR, Data terminal ready
GND, ground
1
2
3
4
5
6
7
8
9
6
1
5
DSR, Data set ready
RTS, Request to send
CTS, Clear to send
RI, Ring indicator
Table 6: Serial Port COM1 (CN1) on cPCI-6760DK/P5 front board
2.1.5 VGA Connector (CN3)
Signal Name
Pin
1
3
Pin
2
4
Signal Name
Green
N.C.
Red
Blue
15
11
5
1
GND
GND
+5V.
N.C.
HSYNC
NC
5
7
9
11
13
15
6
8
10
12
14
GND
GND
GND
N.C.
VSYNC
Table 7: VGA Connector (CN3) on cPCI-6760DK/P5 front board
2.1.6 USB (Port A) Connector (CN5)
Pin #
Signal Name
1
2
3
4
Vcc
USB-
USB+
Ground
Pin 1
Table 8: USB Connector (CN5) on cPCI-6760DK/P5 front board
18 · Jumpers and Connectors
2.1.7 Secondary IDE Connectors (44-pin, CN2)
Signal
RESET-
DD7
Pin #
Pin #
Signal
Ground
DD8
1
2
3
4
DD6
5
6
DD9
DD5
7
8
DD10
DD4
9
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
DD11
DD3
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
DD12
DD2
DD13
DD1
DD14
DD0
DD15
Ground
DMARQ
DIOW-
DIOR-
IORDY
DMACK-
INTRQ
DA1
(keypin)
Ground
Ground
Ground
CSEL
Ground
reserved
PDIAG-
DA2
DA0
CS0-
CS1-
DASP-
+5V
Ground
+5V
Ground
TYPE-
Jumpers and Connectors · 19
2.1.8 Primary IDE Interface (40-pin, CN11)
Signal
RESET-
DD7
Pin #
1
Pin #
2
Signal
Ground
DD8
3
4
DD6
5
6
DD9
DD5
7
8
DD10
DD11
DD12
DD13
DD14
DD15
NC
DD4
9
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
DD3
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
DD2
DD1
DD0
Ground
DMARQ
DIOW-
DIOR-
IORDY
DMACK-
INTRQ
DA1
Ground
Ground
Ground
CSEL
Ground
reserved
PDIAG-
DA2
DA0
CS0-
CS1-
DASP-
Ground
Table 9: Primary IDE channel (CN11) on DB-6760J3
20 · Jumpers and Connectors
2.1.9 Parallel Port Connector on DB-6760J3 (CN9)
Signal Name
Line printer strobe
PD0, parallel data 0
PD1, parallel data 1
PD2, parallel data 2
PD3, parallel data 3
PD4, parallel data 4
PD5, parallel data 5
PD6, parallel data 6
PD7, parallel data 7
ACK, acknowledge
Busy
Pin #
1
Pin #
14
Signal Name
AutoFeed
Error
13
2
15
3
16
Initialize
Select
4
17
5
18
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
N/A
6
19
7
20
14
1
8
21
9
22
10
11
12
13
23
24
Paper empty
25
Select
N/A
Table 10: Parallel Ports LPT1 (CN9) on DB-6760J3
2.1.10 FDD Interface (34-pin, CN10)
Signal
Pin #
Pin #
Signal
Ground
Ground
NC
1
2
DRVDEN0
NC
3
4
5
6
DRVDEN1
INDEX#
MTR0#
DS1#
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
7
8
9
10
12
14
16
18
20
22
24
26
28
30
32
34
11
13
15
17
19
21
23
25
27
29
31
33
DS0#
MTR1#
FDIR#
STEP#
WDATA#
WGATE#
TRACK0#
WPT#
RDATA#
HDSEL#
DSKCHG#
Table 11: FDD Interface (CN3) on DB-6760J3
Jumpers and Connectors · 21
2.1.11 Ping header P3 Pin Assignments
Pin
Z
A
B
C
D
E
F
GND PDRST# PDCS16# (1) PDIORDY Reserved PDIRQ14 GND
19
GND PDACT#
Reserved
PDD14
PDD10
PDA1
PDD6
PDD2
PDCS3#
PDD13
PDD9
+5V
PDD5
PDD1
PDCS1# PPDIAG (1) GND
18
17
16
15
14
13
GND
GND
GND
GND
GND
PDD15
PDD11
PDA0
PDD7
PDD3
PDD12
PDD8
PDA2
PDD4
PDD0
Reserved GND
PDDACK# GND
PDDREQ GND
PDIOW#
PDIOR#
GND
GND
GND
GND
GND WRTPRT#
DS0#
DS1#
DRVDEN1
DSKCHG
HDSEL#
MTR0#
MTR1#
FDIR#
INDEX#
DRVDEN0 RDATA#
TRACK0#
WDATA# GND
12
11
10
GND
GND
STEP#
GND WGATE#
ERRORP#
SLCTIN#
AUTOFD
+5V(4)
PBUSY
Reserved GND
9
8
GND
PE
PSTROB# Reserved GND
GND
GND
PPD7
PPD3
PPD6
PPD2
PPD5
PPD1
PPD4
PPD0
PINIT3
PACK#
GND
GND
7
6
GND Reserved MSDATA(1) PCBEEP(1) KBDATA(1)
SLCT
RXD1(1)
TXD1(1)
TDN2(1)
TDP2(1)
E
GND
GND
GND
GND
GND
F
5
4
GND Reserved
GND CTS1#(1)
MSCLK(1)
RTS1#(1)
TDN1(1)
RDN2(1)
B
+5V
DSR1#(1)
RI1#(1)
RDP1(1)
C
KBCLK(1)
DCD1#(1)
DTR1#(1)
RDN1(1)
D
3
GND
GND
Z
TDP1(1)
RDP2(1)
A
2
1
Pin
Table 12: Ping header P3 pin assignments on cPCI-6760DK and DB-6760J3
Note:
(1)
These signals are used by the CPU board (J3) but not used in
the DB-6760J3 (P3)
22 · Jumpers and Connectors
2.1.11 CompactPCI J1 Pin Assignments
Pin
Z
A
B
REQ64# (2)
+5V
C
D
E
F
GND
GND
GND
GND
GND
GND
GND
+5V
ENUM# (2)
V(I/O) (1)
S1AD[3]
+3.3V
+3.3V
S1AD[0]
+5V
+5V
GND
25
24
23
22
21
20
19
18
17
16
15
12-14
11
10
9
S1AD[1]
+3.3V
ACK64# GND
S1AD[2] GND
S1AD[4]
GND
S1AD[7]
+3.3V
S1AD[6]
M66EN(6) S1C/BE[0]# GND
AD[5]
GND
S1AD[9]
GND
S1AD[8]
V(I/O) (1)
S1AD[14]
+3.3V
S1AD[12]
+3.3V
S1AD[11] S1AD[10] GND
S1AD[15]
GND
IPMB_SCL(1) IPMB_SDA(1)
GND
S1PAR S1C/BE[1]# GND
GND S1PERR# GND
S1AD[13] GND
GND S1SERR#
GND +3.3V
GND S1DEVSEL#
GND
V(I/O) (1)
S1STOP# S1LOCK# GND
BDSEL(7) S1TRDY# GND
GND
+3.3V
S1FRAME#
S1IRDY#
Key
GND
GND
S1AD[18]
S1AD[21]
S1AD[17]
GND
IDSEL(8)
S1AD[16]
+3.3V
GND
S1C/BE[2]# GND
S1AD[20] S1AD[19] GND
GND S1C/BE[3]#
S1AD[23]
V(I/O) (1)
S1AD[28]
+3.3V
GND
AD[25]
GND
S1AD[22] GND
S1AD[24] GND
S1AD[27] GND
S1AD[31] GND
S1GNT# GND
GND
GND
GND
S1AD[26]
S1AD[30]
REQ#
GND
8
S1AD[29]
GND
7
S1CLK
GND
INTP (1)
6
GND Reserved (1) Reserved (1) S1PCIRST#
GND IPMB_PWR (1) HEALTHY# (1)
5
V(I/O) (1)
INTS
INTD#
TDI (2)
+5V
GND
GND
GND
GND
4
GND
GND
GND
INTA#
TCK (2)
+5V
INTB#
+5V
INTC#
TMS (2)
TRST# (2)
+5V
3
TDO (1)
+12V
2
-12V
1
Pin
Z
A
B
C
D
E
F
Table 13: CompactPCI J1 pin assignments
Jumpers and Connectors · 23
2.1.12 CompactPCI J2 Pin Assignments
Pin
Z
A
B
C
D
E
F
22 GND
21 GND
20 GND
19 GND
GA4# (1)
S1CLK6
S1CLK5
GND
GA3# (1)
GA2# (1)
Reserved
Reserved
Reserved
Reserved
PRST#
GA1# (1)
Reserved
GND
GA0# (1) GND
Reserved GND
Reserved GND
Reserved GND
Reserved GND
S1GNT6# GND
Reserved GND
S1GNT5# GND
Reserved GND
Reserved GND
Reserved GND
Reserved GND
GND
GND
GND
Reserved
GND
18 GND Reserved
17 GND Reserved
16 GND Reserved
15 GND Reserved
14 GND Reserved
13 GND Reserved
12 GND Reserved
11 GND Reserved
10 GND Reserved
9
8
7
6
5
Reserved
GND
S1REQ6#
GND
Reserved
GND
DEG# (2)
FAL# (2)
S1REQ5#
GND
Reserved
GND
Reserved
V(I/O) (1)
Reserved (
V(I/O) (1)
Reserved
GND
Reserved
GND
Reserved
Reserved
GND
Reserved
GND
Reserved
Reserved
Reserved
V(I/O) (1)
Reserved
V(I/O) (1)
Reserved
V(I/O) (1)
GND
Reserved
GND
Reserved
GND
Reserved GND
Reserved GND
Reserved GND
Reserved GND
Reserved GND
Reserved GND
GND Reserved
GND Reserved
GND Reserved
GND Reserved
GND Reserved
Reserved
4
GND
V(I/O) (1)
Reserved
Reserved
S1GNT3#
GND
Reserved GND
3
2
1
GND
GND
GND
S1CLK4
S1CLK2
S1CLK1
GND
S1CLK3
GND
S1REQ#4
S1GNT4# GND
S1REQ3# GND
S1REQ2# GND
SYSEN# (2) S1GNT2#
S1REQ1#
S1GNT1#
Pin
Z
A
B
C
D
E
F
Table 14: CompactPCI J2 Pin Assignments
24 · Jumpers and Connectors
2.1.13 CompactPCI J4 Pin Assignments
Pin
Z
A
B
C
D
E
F
GND
GND
GND
GND
GND
GND
GND
GND
GND
+5V(4)
S2AD[1]
+3.3V(4)
S2AD[7]
+3.3V(4)
S2AD[12]
+3.3V(4)
S2SERR#
+3.3V(4)
+3.3V(4)
S2AD[0]
+5V(4)
+5V(4)
GND
GND
GND
GND
REQ64# (2)
ENUM# (2)
Reserved
S2AD[3]
+3.3V(4)
25
24
23
22
21
20
19
18
17
16
15
+5V(4)
S2AD[4]
GND
S2AD[9]
GND
ACK64#
S2AD[2]
S2AD[5]
S2AD[6]
S2AD[8]
Reserved
S2AD[14]
+3.3V(4)
M66EN(4) S2C/BE[0]# GND
S2AD[11]
GND
S2PAR
GND
S2STOP#
GND
S2AD[10] GND
S2AD[13] GND
S2C/BE[1]# GND
S2PERR# GND
S2LOCK# GND
S2TRDY# GND
S2AD[15]
GND
IPMB_SCL(1) IPMB_SDA (1)
GND S2DEVSEL#
GND
GND
S2FRAME#
Reserved
S2IRDY#
+3.3V(4)
KEY
12-14
GND
GND
GND S2C/BE[3]#
GND
GND
GND
GND
S2AD[18]
S2AD[21]
S2AD[17]
GND
GND
GND
S2AD[29]
GND
S2AD[16]
+3.3V(4)
S2AD[23]
Reserved
S2AD[28]
+3.3V(4)
GND
S2AD[20]
GND
AD[25]
GND
S2C/BE[2]# GND
S2AD[19] GND
S2AD[22] GND
11
10
9
8
7
S2AD[26]
S2AD[30]
S2REQ0#
Reserved
AD[24]
GND
S2AD[27] GND
S2AD[31] GND
S2GNT0# GND
S2CLK
GND
6
5
Reserved
S2PCIRST#
GND IPMB_PWR (1) HEALTHY#(1) Reserved
INTP(1)
+5V(4)
TDO (1)
Reserved
D
INTS
INTD#
TDI (2)
+5V(4)
E
GND
GND
GND
GND
F
4
3
GND
GND
GND
Z
INTA#
TCK (2)
+5V(4)
A
INTB#
+5V(4)
Reserved
B
INTC#
TMS (2)
TRST# (2)
C
2
1
Pin
Table 15: ComapctPCI J4 pin assignments
Jumpers and Connectors · 25
2.1.14 CompactPCI J5 Pin Assignments
Pin
22
Z
A
B
C
D
E
F
GND
GND
Reserved
S2PCLK6
Reserved
GND
Reserved
LANLED2
Reserved
Reserved
Reserved
Reserved
GND
GND
21
GND
GND
S2PCLK5
GND
GND
GND
SDD7
SDD9
GND
SDD6
SIDERST# GND
20
19
SDD8
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
SDD4
SDD12
SDD3
SDD11
GND
SDD10
GND
S2REQ6#
GND
SDD5
18
17
16
15
Reserved
Reserved
Reserved
S2GNT6#
SDD2
SDD13
GND
SDD1
S2REQ5#
S2GNT5#
SDDREQ
SDD14
GND
SDCS16#
GND
SDD0
GND
SDIOW#
GND
SDA2
GND
SDD15
SDIOR#
SDIRQ15
SDA1
GND
GND
GND
GND
GND
14
13
12
11
10
GND SDIORDY
Reserved
SDDACK#
Reserved
SDCS3#
GND
GND
GND
SPDIAG
SDA0
GREEN
SDACT#
SDCS1#
GND
GND
GND
GND
GND
GND
HSYNC
DDCCLK
OCJ1
GND
DDCDAT
GND
Reserved
SPDLED2
Reserved
DTR2#
RED
GND
BLUE
GND
GND
9
8
7
6
5
4
VSYNC
LANLED1
GND
SPDLED1 GND
USBP1M
DCD2#
USBP1P
GND
RXD2
RI2#
GND
GND
GND
Reserved
RTS2#
TXD2
Reserved
CTS2#
GND
DSR2#
GND
GND
GND
S2CLK4
S2CLK2
S2CLK1
GND
S2CLK3
GND
S2GNT3#
Reserved
S2REQ1#
S2REQ4#
S2GNT2#
S2GNT1#
S2GNT4#
S2REQ3#
S2REQ2#
GND
GND
GND
3
2
1
Pin
Z
A
B
C
D
E
F
Table 16: CompactPCI J5 pin assignments
Note:
(1) These signals are not connected.
(2) These signals are pulled high on board.
(3) These signals are pulled low on board.
(4) These power pins are used for rear transition board used.
26 · Jumpers and Connectors
(5) ENUM# is connected to a BIOS programmable circuitry then
connected to IRQ 3 or IRQ 9 according to the hardware configuration.
There is a BIOS setting to Enable/Disable this ENUM# function. The
default BIOS setting is Disabled and the factory default hardware
configuration is IRQ 9. To support PICMG 2.1 Hot Swap for
peripheral boards, backplane should bus all peripheral slots ENUM#
together to system slot. And customer should enable ENUM#
function in cPCI-6760DK/P5 BIOS setting. (When R283 and R284
are installed with 0-ohm resistors, ENUM# is routed through IRQ9. If
R283, R284 are removed and R281 and R282 are installed with
0-ohm resistors, ENUM# is routed through IRQ3.)
(6) M66EN is tied to ground. PCI bus just can run in 33MHz.
(7) In backplane, BDSEL must tie to ground to enable “self-hot-swap”
controller.
(8) IDSEL are tied to ground.
2.1.15 LAN Port Indicators (Integrated in LAN1 (CN6) and LAN2
(CN7))
Green LED
Amber LED
Amber LED
Description
10/100Mbps Status
OFF
ON
10Mbps transfer rate
100Mbps transfer rate
Table 17: Amber LED indication in LAN port
Green LED
Link/Activity Status
OFF
Description
No link
ON
Connecting
Blinking
Active/Data transfering
Table 18: Green LED indication in LAN port
Jumpers and Connectors · 27
2.1.16 IDE Activity LED Indication
Power LED
IDE Activity
Reset Button
WDT Status
Indication
Description
Red LED
OFF
EIDE is not active
ON
Any one EIDE device is active
Table 19: IDE Activity LED indication
2.1.17 Power LED Indication
Description
Green LED
OFF
System is not power-on or power failed
System is power-on
ON
Table 20: Power LED indication
2.1.18 WDT LED Indication
Description
WDT is not enable
WDT is enable
Amber LED
OFF
Blinking
Table 21: WDT LED indication
28 · Jumpers and Connectors
3
Getting Started
This chapter provides information on how to install necessary components
on the cPCI-6760DK/P5 in order to set up a workable system. The topics
covered are:
·
·
·
·
·
·
CPU Installation
Memory Installation
CF Installation
HDD Installation
Device Connection for OS Installation
Notice for Rear I/O Connection
Getting Started · 29
3.1 CPU Installation
The cPCI-6760DK/P5 CPU module supports an Intel BGA2 Low Power
Pentium-III processor at 500MHz with a 100 MHz front side bus (FSB)
frequency.
The CPU on the cPCI-6760DK/P5 series products is soldered on the PCB
(printed circuit board) in the factory. Users do not need to install any CPU
beforehand to get the system started. The heatsink is also pre-mounted in
the factory. We do not suggest users try to remove the heatsink or CPU. It
may cause an un-recoverable system error and the warranty will be void.
M
Please do not try to replace the CPU in the field or remove the
heatsink. It will cause board defects and the warranty will be void.
3.2 Memory Installation
The cPCI-6760DK/P5 CPU module supports two PC-100 144-pin SO-DIMM
sockets for a maximum total memory of 512MB with optional ECC support.
The memory type must be 3.3V SDRAM. The memory module can come in
sizes of 32MB, 64MB, 128MB or 256MB PC-100 144-pin SO-DIMM. The
256MB SO-DIMM should be constructed of 16Mx8 SDRAM chips.
The cPCI-6760DK/P5 is delivered with pre-installed 64MB PC-100 144-pin
SO-DIMM. ADLINK’s factory also provides pre-mounting memory service of
other memory size for volume orders of OEM project on request. Please
contact your dealer or ADLINK’s sales representatives.
Note: Ensure that the RAM modules are firmly seated in the SO-DIMM
sockets and that it is not over the height limitation, otherwise the
components maybe damaged when the SBC is inserted into the
chassis.
30 · Getting Started
3.3 CF Installation
The CompactFlash Card (or called CF storage card) is widely applied in
digital consumer devices like PDA, Digital Camera and MP3 player.
Because of the CF anti-shock, anti-vibration, better environment tolerance,
low power consumption, small form factor and high reliability, it has been
widely accepted in mission critical embedded applications.
With the cPCI-6760DK/P5, the CF card is very easy to use; the CF card
socket is available on the DB-6760CF, which is a removable daughter board
that can be attached to the cPCI-6760DK/P5 by directly connecting the
daughter board to the on-board 44-pin IDE (CN2) connector. The
DB-6760CF is designed in exchange with the 2.5” ATA HDD on the IDE
interface. The DB-6760CF supports both type-I and type-II CompactFlash
storage device such as CF cards or IBM MicroDrive.
If user purchases the OEM model, non-standard, customized or special
configuration model, it may not come with the DB-6760CF in the package.
Users can purchase the CF card adaptor (by the model name: DB-6760CF)
as an optional kit to convert the IDE interface into a CF card socket. Since
the CF card adaptor utilizes the same IDE interface and the same space that
a 2.5” ATA HDD may occupy, users should remove then 2.5” ATA HDD (if
any) first before installing the CF card adaptor. Please refer to the section of
HDD installation for instructions on removing the 2.5” ATA HDD.
Note: To prevent the CF card from come loose during heavy vibrations,
there is a screw designed and located on the upper side of CF
card. (Please refer to the figure in section 3.3.1.). Remove the
protection screw before inserting or extracting the CF card. After
inserting or extracting the CF card, please mount and fix this
protection screw.
Getting Started · 31
3.3.1 DB-6760CF Outline, Jumper and Connectors
Please remove this protection
screw before inserting or extracting
the CF card.
CF Card
Ejector
CompactFlash
Socket
JP1
Master/Slave
1
M/S Selection
JP1
3
2
1
Master
(Default)
Pin 2 & 3 Short
3
2
1
Slave
Jumper Open
Table 22: JP1 DB-6760CF Master/Slave Setting
32 · Getting Started
3.3.2 DB-6760CF Installation for cPCI-6760DK/P5 and CF card
notice
·
Mount the DB-6760CF on the cPCI-6760DK/P5’s IDE connector (CN2).
Please be aware that pin 1 on the DB-6760CF should be aligned with
pin 1 of CN2 on the cPCI-6760DK/P5.
·
Fix the DB-6760CF & cPCI-6760DK/P5 by screwing three hexagonal
pillars between them. Leave the hole in front of the CF socket
unscrewed.
·
·
Set the CF card as master or slave upon application requirements.
Insert a CF card into its socket, and then check to see if the CF card is
probably seated
·
Mount the third screw on the upper side of the CF card to prevent the CF
card from coming loose during heavy vibration.
Note: The CF card on the CPU board utilize the Secondary EIDE
interface (IDE2), which is also wired to the CompactPCI
connector J5. Users need to pay attention to the master/slave
setting to avoid conflicts between devices. The default jumper
setting on the DB-6760CF is set to master.
3.3.3 Removing the DB-6760CF from the cPCI-6760DK/P5
·
Remove the upper screw, which prevents the CF card from coming
loose
·
·
·
Remove the CF card by pushing the ejector level
Remove all screws & hexagonal pillars on the DB-6760CF
Remove the DB-6760CF carefully from the 44-pin IDE connector (CN2)
of the cPCI-6760DK/P5
Getting Started · 33
3.4 HDD Installation
With the cPCI-6760DK/P5, users can install one 2.5” ATA HDD or one flash
drive (e.g. FLASH2000 flash disk, FFD). The factory default model is
equipped with a DB-6760CF; the removable CF card is not included. If users
wish to install a 2.5” ATA HDD for larger storage capacity or want to install a
FFD, user can purchase off-the-shelf 2.5” ATA HDD or FFD from the market.
However, we recommend only products, which are approved by ADLINK to
ensure optimum system stability. Due to space limitation and ventilation
concerns, the SBC is only allowed to use low profile (or called slim type) 2.5”
ATA HDD or FFD with a thickness of no more than 9.5mm. Since the CF
card adaptor (DB-6760CF) utilizes the same IDE interface and the same
housing that a 2.5” ATA HDD uses, users should remove the CF card
adaptor (if any) first before installing a 2.5” ATA HDD or FFD. Please refer to
the section on “CF installation” for the instruction on removing the CF card
adaptor.
3.4.1 HDD/FFD Installation for cPCI-6760DK/P5
·
Find the HDD accessory pack inside your original package. (If user
purchases the OEM model, non-standard, customized or special
configuration model, it may not come with the HDD accessory pack.
Please contact ADLINK dealers or sales representatives to purchase
this accessory pack P/N: 58-00023-000.)
·
Remove the DB-6760CF if it exist, please refer to the section “CF
Installation”
·
·
Check the master/slave setting of your 2.5” ATA HDD.
Screw four copper hexagonal stand-offs on the bottom side of the 2.5”
ATA HDD.
·
·
Mount the HDD by using four M3 screws from the bottom side of the
cPCI-6760DK/P5’s.
Connect the HDD and cPCI-6760DK/P5 (CN2) using the ribbon cable,
which comes with the HDD accessory pack.
·
·
Check pin1 of the IDE connector, ribbon cable and HDD are all matched.
Reconfirm the ribbon cable, HDD and HDD supporting stand-off are all
well fixed & connected.
Note: The 2.5" ATA HDD on the front board utilizes the Secondary
EIDE interface (IDE2), which is also wired to the CompactPCI
connector J5. Users need to pay attention to the master/slave
setting to avoid conflicts between devices.
34 · Getting Started
3.4.2 Removing HDD/FFD from cPCI-6760DK/P5
·
·
·
Remove the four screws from the bottom side that mounts on the copper
stand-offs.
Remove the 44-pin ribbon cable from CN2 of the cPCI-6760DK/P5 and
remove the cable from the HDD.
Remove the copper stand-offs from the HDD.
3.5 Device Connection for OS Installation
This section describes how to get started with installation of an OS on to the
cPCI-6760DK/P5 CPU module. The easiest way to install an OS is by
connecting an ATAPI CD-ROM.
3.5.1 Using the cPCI-6760DK/P5 with ADLINK’s cBP-6108 and
6515 series backplane
Since the cBP-6108 and 6515 series backplane have direct IDE connection
from J3/P3 and J5/P5 on the rear I/O interface, and the pin assignments are
compatible with that of the cPCI-6760DK/P5 series product. Users can
easily connect a 40-pin ribbon cable into the IDE interface on the rear side of
backplane. Then connect the other end of the cable into an ATAPI CD-ROM.
Because the primary IDE interface is wired to J3 and then goes to be used by
the DB-6760J3 daughter board, users can only connect an IDE cable on the
secondary IDE interface on the backplane. If users have installed a 2.5” ATA
HDD or CF card on the front board, it is recommend that the master/slave
setting on CD-ROM be adjusted to prevent any conflicts.
3.5.2 Using the cPCI-6760DK/P5 on other backplanes
For backplanes, which are not compatible with the pin assignments of J5/P5
IDE interface of the cPCI-6760DK/P5, users can connect a 40-pin ribbon
cable onto the Secondary IDE interface on the cPCI-R6760D or
cPCI-R6760S rear board and then connect the other end of the ribbon cable
onto the ATAPI CD-ROM. If users have installed a 2.5” ATA HDD or a CF
card on the front board, it is recommended that the master/slave setting on
the CD-ROM be adjusted to prevent any conflicts.
Getting Started · 35
3.6 Notice for Rear I/O Connection
The cPCI-6760DK/P5 features fully integrated functionalities with AGP-VGA
display, Ethernet ports, 2S1P, USB, UDMA-33 IDE and Ultra-160 SCSI.
Some of these are implemented for rear I/O only, while some are
implemented to support both front and rear I/O. This section describes the
important notes about using the rear I/O connection.
3.6.1 The I/O implementation is only supported by rear I/O board
Several I/Os are only supported by the rear I/O including COM2, USB2,
LAN3, LAN4 and SCSI. User could apply the cPCI-R6760S rear I/O board to
obtain all the rear I/O mentioned above. If the cPCI-R6760D rear I/O board is
applied then there is no LAN3, LAN4 or SCSI available. However, using the
cPCI-R6760S will occupy 3 pairs of PCI bus mastering circuitry on the upper
cPCI bus (the secondary cPCI bus).
M Please use the proper rear I/O transition module to enable the
functions (I/O interfaces) on rear side. The board or system maybe
damaged if the incorrect rear I/O transition module is used.
3.6.2 The I/O implementation is supported by both rear I/O and
front I/O
Several I/Os were originally designed to support rear and front I/O’s including
keyboard, mouse, VGA display and Ethernet connections, but now since the
cPCI-6760DK/P5 also uses the DB-6760J3, it re-directs some of the rear I/O
signal to front board, therefore, there is no signal output available on the rear
I/O for keyboard, mouse and Ethernet. Users may apply the cPCI-R6760D
or cPCI-R6760S on the system, but only the VGA display is available on rear
panel.
M
Please use the proper rear I/O transition module to enable the
functions (I/O interfaces) on rear side. The board or system maybe
damaged, if the improper rear I/O transition module is used.
M
Please connect device either on the front or rear I/O for one I/O
function only. DO NOT connect devices of the I/O function front and
rear panel at the same time. It may cause damages to the I/O ports or
the system module and the warranty will be void.
36 · Getting Started
3.6.3 LAN1, LAN2 Front and Rear I/O Connecting Selection
There are two DIPswitches on the solder side of the cPCI-6760DK/P5.
Those switches were originally designed to supports dual Ethernet
connection both on the front and rear I/O’s on the cPCI-6760D, however; with
the cPCI-6760DK/P5, it uses the DB-6760J3 to re-direct the rear I/O signals
on J3 to the front, therefore there is no LAN1 or LAN2 Ethernet available on
rear I/O. Please keep these switches set as factory default to enable
Ethernet functionalities on the cPCI-6760DK/P5.
S1, S2: LAN1 Connecting Selection
LAN 1
Switch S1
Switch S2
Connecting
Pin#
State
Pin#
State
S1-1
S1-2
ON
S2-1
S2-2
OFF
ON
ON
ON
OFF
OFF
OFF
Front I/O
Enable
S1-3
S1-4
S2-3
S2-4
Table 23: LAN1 Connecting Selection
S3, S4: LAN2 Connecting Selection
LAN 2
Switch S3
Switch S4
Connecting
Pin#
State
Pin#
State
S3-1
S3-2
S3-3
S3-4
ON
S4-1
OFF
ON
ON
ON
S4-2
S4-3
S4-4
OFF
OFF
OFF
Front I/O
Enable
Table 24: LAN2 Connecting Selection
M
DO NOT set S1 and S2 to “ON” or S3 and S4 to “ON” at the
same time. It may cause Ethernet malfunction or damage the
board or devices.
Getting Started · 37
4
Driver Installation
To install the drivers and utility for the cPCI-6760DK/P5, please refer the
installation information in this Chapter. We provide basic information in this
manual, however, for more detail installation information, such as
non-Windows OS installation, please refer to the extensive explanation
inside the ADLINK CD. We put the chip drivers in the following directories:
Chipset driver
\CHIPDRV\Chipset\440BX
\CHIPDRV\VGA\SM721
\CHIPDRV\LAN\100PDISK
\CHIPDRV\WDT
VGA/AGP relative driver
LAN relative driver
Watchdog relative library
Hardware Doctor Utility
\Utility\HWDoctor\W8378X
In this users manual, the Bus-mastering IDE driver installation is not
described because most of the Windows based OS will install those drivers
automatically.
Since Windows NT is a non plug-and-play OS, some useful tips for installing
Windows NT drivers are suggested:
1. Install the LAN driver before installing any service pack.
2. Install the VGA/AGP driver after installing the service pack. Please
make sure your service pack does support AGP, service pack 6 or
higher is recommend.
3. If Windows NT boots with a warning message, check the Event
Viewer to view the source generating the warning message. If
strange phenomena’s occur and it can’t be solved, re-install the
Windows NT service pack, then install the drivers in a different
sequence.
38 · Driver Installation
4.1 VGA Drivers Installation
This section describes the VGA driver installation for the onboard VGA
controller
X:\CHIPDRV\VGA\SM721 directory of the ADLINK CD: where X: is the
location of the CD-ROM drive. The VGA drivers for Windows 98/95,
SM721.
The
relative
drivers
are
located
in
Windows NT and Windows 2000 are also included.
4.1.1 Driver Installation on Windows 2000
Windows 2000 may install the standard VGA driver. We recommend you to
manually installed the most updated driver, which is shipped with the
ADLINK CD to guarantee compatibility. After installing Windows 2000,
update to the new driver by following these procedures.
1. Boot Windows 2000, Click Start. Select Settings then double-click
the Control Panel.
2. Double-click on the System icon, click Hardware tab, click Device
Manager button.
3. Double-click either on the Display Adapters or Other Devices entry,
Double-click Video Controller or Silicon Motion Lynx3DM entry.
4. Click on the Driver tab, then click Update Driver… button.
5. An Upgrade Device Driver Wizard windows will appear, click NEXT>.
6. Select Display a list of ... and click NEXT.
7. The next window will show a list of hardware types, select Display
Adapters, then click OK.
8. This window will show a list of VGA model numbers.
9. Insert ADLINK CD and click Have Disk.
10. Browse
the
SM721
driver
in
the
following
path:
X:\CHIPDRV\VGA\SM721\WIN2K, highlight smisetup.inf, click
OPEN, then click NEXT>.
11. Highlight the model: Silicon Motion Lynx3DM, then click NEXT>.
Driver Installation · 39
12. Click the NEXT> button again; Windows 2000 may report a Digital
Signature Not Found. Click Yes to continue.
13. Click Finish button, then click CLOSE button.
4.1.2 Driver Installation on Windows 98
Windows 98 may install the standard VGA driver. We recommend you to
manually installed the most updated driver, which is shipped with the
ADLINK CD to guarantee compatibility. After installing Windows 98, please
update to the new driver by following these procedures.
1. Boot Windows 98, Click Start. Select Settings then double-click the
Control Panel.
2. Double-click System icon, click on the Device Manager tab.
3. Double-click Display Adapters entry,select the Standard PCI
Graphics Adapter (VGA) entry. Click the Properties button.
4. Click on the Driver button, then click Update Driver… button.
5. An Upgrade Device Driver Wizard window will appear, click NEXT>.
6. Select Display a list of ... and click NEXT>. The next window allows
the user to specify a specific path. Insert the ADLINK CD and click
Have Disk.
7. Browse
the
SM721
driver
in
the
following
path:
X:\CHIPDRV\VGA\SM721\WIN9XME, highlight smi.inf, and click
OPEN. Click OK.
8. Click the NEXT> button and a Wizard summary window will appear.
9. Click the Finish button, then restart the computer to activate the new
driver.
40 · Driver Installation
4.1.3 Driver Installation on Windows NT
Windows NT may install the standard VGA driver. We recommend you to
manually installed the most updated driver, which is shipped with the
ADLINK CD to guarantee compatibility. After installing Windows NT, please
update to the new driver by following these procedures.
1. From the Control Panel, double-click the Display icon.
2. Click the Settings tab, click Display Type…, click Change… button.
3. Insert ADLINK CD and click Have Disk.
4. Browse
the
SM721
driver
in
the
following
path:
X:\CHIPDRV\VGA\SM721\WINNT40, highlight smisetup.inf, click
OPEN. Click OK.
5. A windows will appear and will shows the Display is Silicon Motion
Lynx Family, click OK, then click Yes to continue.
6. An Installing Driver window appears indicating
a
successful
installation, click OK to continue.
7. Click Close button.
8. Click Close button, then restart the computer to activate the new
driver.
Note: After installing the VGA/AGP drivers, and you find the driver
does not work. This maybe due to not installing the NT service
pack in advance. We suggest installing NT service pack 4 or
higher to enable AGP capability.
Driver Installation · 41
4.2 LAN Drivers Installation
This chapter describes LAN driver installation for the onboard Ethernet
controller Intel 82559. The relative drivers are under the following ADLINK
CD directory: X:\CHIPDRV\LAN\100PDISK, where X: is the location of the
CD-ROM drive.
4.2.1 Software and Drivers Support
The 82559 drivers support the following OS or platforms:
·
·
·
Windows 98, Windows 95, Windows 2000, Windows NT
Novell Netware, DOS Setup for Novell NetWare DOS
UNIX, OS2, Linux
All the above drivers are included in the ADLINK CD. In the following section,
we will describe the driver installation for Windows 98, Windows 2000, and
Windows NT. For driver installation of other OS’s, please refer to the readme
file inside the CD.
4.2.2 Driver Installation on Windows 2000
Windows 2000 may install the LAN driver. We recommend you to manually
install the most updated LAN driver, which is shipped with the ADLINK CD to
guarantee compatibility. After installing Windows 2000, please update to the
new driver by following these procedures.
1. Boot Windows 2000, Click Start. Select Settings then double-click
the Control Panel.
2. Double-click System icon, click Hardware tab, click Device Manager
button.
3. Double-click Network Adapters entry,Double-click the Intel 8255x-
based PCI Ethernet Adapter (10/100) entry.
4. Click Driver tab, then click Update Driver… button.
5. An Upgrade Device Driver Wizard window will appear, click Next>.
6. Select Display a list of ... and click Next>. The next window will
show a list of hardware models.
7. Insert the CD and click Have Disk.
8. Browse the Intel 82559 driver in the following path:
X:\CHIPDRV\LAN\100PDISK, highlight oemsetup.inf, click Open,
then click OK.
42 · Driver Installation
9. Highlight the model: Intel 8255x- based PCI Ethernet Adapter
(10/100), then click NEXT>. An Update Driver Warning window may
pop up, click Yes to continue.
10. Click NEXT> button, then the Wizard summary window appears.
11. Click Finish button, then click CLOSE button.
4.2.3 Driver Installation on Windows 98
Windows 98 will install the LAN driver automatically. We recommend you to
manually update to the new LAN driver, which comes with the ADLINK CD to
guarantee compatibility. After installing Windows 98, please update the new
drivers by the following procedures.
1. Boot Windows 98, Click Start. Select Settings then double-click the
Control Panel.
2. Double-click on the System icon, click on the Device Manager tab.
3. Double-click on the Network Adapters entry,select
the
Intel
8255x-based PCI Ethernet Adapter (10/100) entry. Click the
Properties button.
4. Click on the Driver button, then click Update Driver… button.
5. Update Device Driver Wizard starts, click NEXT.
6. Select Display a list of ... and click NEXT. The next window allows
the user to specify a specific path. Insert the CD and click Have Disk.
7. Browse the Intel 82559 driver in the following path:
X:\CHIPDRV\LAN\100PDISK, highlight net82557.inf, click OK. The
Update Wizard displays a message that it has found the driver. Click
OK again to update the driver. Note: Windows 98 may ask you to
insert the original Windows 98 CD to install the LAN protocols.
8. Click NEXT button, then the Wizard summary window appears.
9. Click Finish button, then restart the computer to activate the new
driver.
Driver Installation · 43
4.2.4 Driver Installation on Windows NT
Before install the LAN driver on Windows NT, please copy the LAN driver in
the CD to a floppy diskette. You have to put a new disk into drive A, then type
the following batch command under the DOS environment to copy the
relative NT drivers.
X:\CHIPDRV\LAN\100PDISK\Makedisk\Makedisk NT
where X is the CD-ROM drive.
Windows NT may ask to installs a LAN driver from its own library of drivers.
We recommend you to manually update to the new LAN driver, which comes
with the ADLINK CD to guarantee compatibility. After installing Windows 98,
please update to the new driver by following these procedures.
1. From the Control Panel, double-click the Netwrok icon, a Network
Configuration window pops up, click Yes.
2. In Network Setup Wizard, click Next>, click Select From List…
button.
3. Insert LAN driver floppy diskette into A drive and click Have Disk.
4. In the dialog box of Insert Disk window, type in A:, Click OK.
5. A Select OEM Option window pops up, click OK, then click Next>.
6. Select necessary Network Protocols, click Next>.
7. Select necessary Network Services, click Next>.
8. Click Next> until Window NT Setup dialog box pop up. Type in
D:\i386 in the dialog box, then insert the original Windows NT CD,
click Continue.
9. Then click OK until the setup is completed.
10. Reboot the computer.
44 · Driver Installation
5
Watchdog and Utilities
This chapter takes you through how to configure the watchdog timer and a
brief introduction to the utilities that are available to the cPCI-3720
5.1 Watchdog Timer Configuration
The Watch Dog Timer (WDT) can monitor the system's status. Once you
give a value to the WDT, the timer will begin to count down, moving the
keyboard can restart the WDT. If the system is idle or hangs, it will reboot
when the timer times out.
The function of the watchdog timer is to reset the system automatically. It
contains a one-second (or one-minute) resolution down counter (in CRF2 of
logical device 8 of super I/O chip) and two Watchdog control registers (CRF4
and CRF3 of logical device 8).
We provide WDT function calls for easy use under DOS, Windows
95/98/2000, and Windows NT, please refer to the information under
X:\CHIPDRV\WDT.
Watchdog and Utilities · 45
5.1.1 WDT Programming
In order to simplify the programming code, we have provided a sub function
for programmers to implement with their software. For DOS, Windows 95, 98
and Windows NT, the sub function format is as follows:
out_port (int IOport_number, int Counter_value)
IOport_number:0x3F0 -->W83977EF's configuration port.
0x2E -->W83627HF's configuration port.
Counter_value: 0 ~ 15300 (255 minutes)
(write a zero to disable the timer)
Under DOS, Windows 95 or 98
wdt.cpp
Make a project program called
Under Windows NT
under Turbo C/C++.
The library installation procedure:
(1) run the setup program under NT environment.
(2) reboot the system.
You can also write your own DLL by referring to the DOS sources we have
provided.
5.1.2 How to Test the WDT?
Under DOS, Windows 95 or 98
Open a DOS command prompt and execute the following utility on the CD.
X:\CHIPDRV\WDT\test <n>
/* n = second value. This program can auto-detect which Super I/O chip you
are using. */
Under Windows NT
Before you executing this program under NT, you must run the setup
program under Windows NT in advance. Open a DOS command prompt
window and execute the following command.
test977 <n>: n = second value. For W83977EF
46 · Watchdog and Utilities
5.2 Hardware Doctor Utility
This section introduces the Hardware Doctor Utility that comes with the CPU
board in conjunction with the onboard hardware monitoring functions. The
section describes the functions of the utility.
Hardware Doctor is a self-diagnostic system for PC and must be used with
the Winbond W83781D/W83782D or W83627HF IC series products. It will
protect the PC Hardware by monitoring several critical items including Power
Supply Voltage, CPU Fan speed, and CPU & System temperature. These
items are important to the operation of system; errors may result in
permanent damage to the PC. If any item is out of its normal range, an
obvious warning message will pop up and notify the user to take the
appropriate action.
The Hardware Doctor utility supports Windows 98 and Windows NT. The
software is stored on the ADLINK CD under the following directory:
X:\Utility\HWDoctor\W8378X\WIN98
X:\Utility\HWDoctor\W8378X\NT40.
and
To install the Hardware Doctor Utility execute the HWM-98.exe or
HWM-NT.exe respectively under Windows 98 or Windows NT.
For a detail user's manual, please refer the HWDoctor.PDF under the
X:\Utility\HWDoctor\W8378X.
Watchdog and Utilities · 47
5.3 Intel Preboot Execution Environment (PXE)
The cPCI-6760DK/P5 series supports Intel Preboot Execution Environment
(PXE), which provides the capability of boot-up or executing an OS
installation through the Ethernet ports. There should be a DHCP server in
the network with one or more servers running PXE and MTFTP services. It
could be a Windows NT or Windows 2000 server running DHCP, PXE and
MTFTP service or a dedicated DHCP server with one or more additional
server running PXE and MTFTP service. This section describes the major
items required for building a network environment with PXE support.
1. Setup a DHCP server with PXE tag configuration.
2. Install the PXE and MTFTP services
3. Make boot image file on PXE server (that is the boot server).
4. Enable the PXE boot function on the client computer.
For more detailed information, please refer to pdkrel30.pdf under the
directory X:\Utility\PXE_PDK.
48 · Watchdog and Utilities
5.4 Intel Adapter Teaming
The cPCI-6760DK/P5 series support Intel Adapter Teaming which provides
several options for increasing throughput and fault tolerance when running
Windows 2000, Windows NT 4.0, or NetWare 4.1x or newer. There are four
options that can be supported by the cPCI-6760DK/P5. The options are
listed below:
1. Adapter Fault Tolerance: provides automatic redundancy for your
Ethernet port (adapter). If the primary port (adapter) fails, the secondary
takes over. You can create up to eight Fault Tolerance teams. Each
team can have 2 - 8 ports (or adapters).
2. Adaptive Load Balancing (ALB): creates a team of two to eight
Ethernet ports (or adapters) to increase transmission throughput. Also
includes Fault Tolerance option. Works with most switches.
3. Fast Ethernet Channel (FEC): creates a team of two, four or eight ports
(adapters) to increase transmission and reception throughput. Also
includes Fault Tolerance option. Requires a switch with FEC capability.
You can create up to four teams.
4. Link Aggregation: creates a team of two, four or eight ports (adapters)
to increase transmission and reception throughput. Also includes Fault
Tolerance option. Requires a switch with Link Aggregation capability.
You can create up to four teams.
For more detailed information, please refer to prosetp.hlp under the
directory X:\CHIPDRV\LAN\100PDISK
Watchdog and Utilities · 49
Warranty Policy
Thank you for choosing ADLINK. To understand your rights and enjoy all the
after-sales services we offer, please read the following carefully.
1. Before using ADLINK’s products, please read the user manual and
follow the instructions exactly. When sending in damaged products
for repair, please attach an RMA application form.
2. All ADLINK products come with a two-year guarantee, free of repair
charge.
·
·
·
The warranty period starts from the product’s shipment date from
ADLINK’s factory
Peripherals and third-party products not manufactured by
ADLINK will be covered by the original manufacturers’ warranty
End users requiring maintenance services should contact their
local dealers. Local warranty conditions will depend on the local
dealers
3. Our repair service does not cover the two-years warranty if damage
goods are cause by the following:
a. Damage caused by not following instructions on user menus.
b. Damage caused by carelessness on the users’ part during
product transportation.
c. Damage caused by fire, earthquakes, floods, lightening, pollution
and incorrect usage of voltage transformers.
d. Damage caused by unsuitable storage environments with high
temperatures, high humidity or volatile chemicals.
e. Damage caused by leakage of battery fluid when changing
batteries.
f. Damages from improper repair by unauthorized technicians.
g. Products with altered and damaged serial numbers are not
entitled to our service.
h. Other categories not protected under our guarantees.
50 • Warranty Policy
4. Customers are responsible for the fees regarding transportation of
damaged products to our company or to the sales office.
5. To ensure the speed and quality of product repair, please download
an RMA application form from our company website
www.adlinktech.com. Damaged products with RMA forms attached
receive priority.
For further questions, please contact our FAE staff.
ADLINK: [email protected]
Test & Measurement Product Segment: [email protected]
Automation Product Segment: [email protected]
Warranty Policy · 51
|