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User Guide
CCM-BOOGIE •
CompactPCI
®
3U High Performance Core
TM
2 Duo CPU Board
Document No. 5292 • Edition 19 • 4 May 2012
CCM-BOOGIE
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -2- ekf.com
Contents
About this Manual ........................................................... 4
Edition History......................................................... 4
Related Documents ..................................................... 5
Nomenclature ......................................................... 5
Trade Marks .......................................................... 5
Legal Disclaimer - Liability Exclusion ......................................... 5
Standards ............................................................ 6
CCM-BOOGIE Features ........................................................ 7
Feature Summary ...................................................... 7
Short Description CCM-BOOGIE........................................... 11
Block Diagram CCM-BOOGIE ............................................. 12
Top/Bottom View Component Assembly .................................... 13
Rear I/O Transition Module CCT-RIO........................................ 15
Strapping Headers ..................................................... 17
Connectors & Sockets .................................................. 17
Front Panel Elements ................................................... 17
Microprocessor ....................................................... 18
Thermal Considerations ................................................. 19
Main Memory ........................................................ 20
LAN Subsystem ....................................................... 21
Serial ATA Interface (SATA) .............................................. 21
Graphics Subsystem ................................................... 22
Real-Time Clock ....................................................... 23
Universal Serial Bus (USB) ............................................... 23
LPC Super-I/O Interface ................................................. 23
SPI Flash ............................................................ 23
Reset............................................................... 24
Watchdog ........................................................... 26
PG (Power Good) LED .................................................. 27
HD (Hard Disk Activity) LED .............................................. 27
GP (General Purpose) LED ............................................... 27
Hot Swap Detection ................................................... 28
Power Supply Status (DEG#, FAL#) ........................................ 28
PXI Trigger Signals..................................................... 28
Mezzanine Side Board Options ........................................... 29
Rear I/O Options ...................................................... 47
Installing and Replacing Components ............................................ 48
Before You Begin...................................................... 48
Installing the Board .................................................... 49
Removing the Board ................................................... 50
EMC Recommendations................................................. 51
Installing or Replacing the Memory Module .................................. 52
Replacement of the Battery .............................................. 52
Technical Reference ......................................................... 53
Local PCI Devices ...................................................... 53
Local SMB Devices ..................................................... 54
Hardware Monitor LM87 ................................................ 55
GPIO Usage.......................................................... 56
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -3- ekf.com
GPIO Usage ICH9 ................................................ 56
GPIO Usage SIO ................................................. 58
Configuration Jumpers ................................................. 59
Reset Jumper BIOS CMOS RAM Values (P_GP) ........................... 59
Reset Jumper ICH9 RTC Core (P_RTC) ................................. 59
Connectors .......................................................... 60
Front Panel Connectors ............................................ 60
Video Monitor Connector J_DVI ................................ 61
Video Monitor Connector J_VGA ............................... 62
USB Connectors ............................................ 63
Ethernet Connectors ........................................ 64
Internal Connectors .............................................. 65
Expansion Interface Header J_EXP .............................. 65
High Speed Expansion Connector J_HSE .......................... 66
PCI Express Expansion Header J_PCIE ............................ 68
SDVO Expansion Header J_SDVO ............................... 69
System Reset Header P_RST ................................... 69
PLD Programming Header P_ISP ................................ 70
Processor Debug Header XDP1 ................................. 70
CompactPCI J1............................................. 71
CompactPCI J2............................................. 72
Appendix ................................................................. 74
Mechanical Drawings .................................................. 74
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -4- ekf.com
About this Manual
This manual describes the technical aspects of the CCM-BOOGIE, required for installation and system
integration. It is intended for the experienced user only.
Edition History
Ed. Contents/Changes Author Date
1 User Manual CCM-BOOGIE, english, initial edition (Text #5292, File:
ccm_uge.wpd)
gn 2008-10-27
2 Added 'Top View Component Assembly' diagram, changed 'Mechanical
Drawings', changed LPC bridge device ID in table 'Local PCI Devices',
removed section 'Mass Storage Considerations'.
gn 2008-11-07
3 Added chapter ‘Mezzanine Side Board Options’ jj 11 November 2008
4 Added Images CCM-BOOGIE, Mezzanine Stack jj 5 January 2009
5 Replaced DVI connector illustration, replaced C44-SATA illustration,
table 'Literature' updated and moved to table 'Standards', minor
changes throughout text/tables reflecting C42-SATA and
CCO-CONCERT
jj 19 February 2009
6 Corrected SMBus Address of ADT7421.
Corrected typo within CompactPCI J2 connection table.
Added PCIe-SATA-Bridge JMB362 to local PCI devices table.
gn 2009-03-17
7 Added power requirements and performance rating for CCM-6 to table
‘Feature Summary’. Added some images and illustrations of mezzanine
modules and side cards.
gn 2009-09-01
8 Added power requirements for sleep states S3 S4 S5 jj 3 September 2009
9 Added photo CCM bottom view jj 24 September 2009
10 Added photo CCT custom specific version, added photos CCG-CCK-DX1
exploded view, added photo CR4
jj 17 November 2009
11 CCH-MARIACHI side card replaced by CCO-CONCERT jj 19 February 2010
12 Added to table Feature Summary: +3.3V V(I/O) option jj 5 November 2010
13 Parallel ATA drives on side cards not supported jj 1 March 2011
14 Added description of unlocked front panel handle signalling gn 2011-04-13
15 Added photos showing how to force system shutdown using the front
panel handle integrated switch, added photos 'Small Systems' and
'Rugged Systems'
jj 13 May 2011
16 BIOS usage of GP LED - link added jj 18 May 2011
17 Highlighted BIOS GP LED Usage Link gn 2011-06-17
18 Added photos of several mezzanine storage modules jj 23 August 2011
19 Added MTBF value to table Feature Summary gn 2012-05-04
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -5- ekf.com
Related Documents
For ordering information refer to document CCM-BOOGIE Product Information, available at
www.ekf.com/c/ccpu/ccm/ccm_pie.pdf.
Other documents related to the CCM-BOOGIE - in particular technical information of suitable
mezzanine side boards - can be found at www.ekf.com/c/ccpu/ccm/ccm_e.html.
Nomenclature
Signal names used herein with an attached '#' designate active low lines.
Trade Marks
Some terms used herein are property of their respective owners, e.g.
< Pentium, Pentium M, Celeron M, Core 2 Duo, Penryn, Cantiga GS45, Montevina Platform,
Boazman, Fern Hill CRB, iAMT: ® Intel
<
CompactPCI
: ® PICMG
< Windows 2000, Windows XP, Windows Vista: ® Microsoft
< EKF, ekf system: ® EKF
EKF does not claim this list to be complete.
Legal Disclaimer - Liability Exclusion
This manual has been edited as carefully as possible. We apologize for any potential mistake.
Information provided herein is designated exclusively to the proficient user (system integrator,
engineer). EKF can accept no responsibility for any damage caused by the use of this manual.
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -6- ekf.com
Standards
Theme Document Title Origin
CompactFlash CF+ and CompactFlash Specification Revision 3.0 www.compactflash.org
CompactPCI CompactPCI Specification, PICMG 2.0 R3.0, Oct. 1,
1999
www.picmg.org
DVI Digital Visual Interface Rev. 1.0
Digital Display Working Group
www.ddwg.org
Ethernet IEEE Std 802.3, 2000 Edition standards.ieee.org
HD Audio High Definition Audio Specification Rev.1.0 www.intel.com/design/chipsets/hdaudio.htm
PCI Express PCI Express® Base Specification 1.1 www.pcisig.com
PCI Local Bus PCI 2.2/2.3/3.0 Standards PCI SIG www.pcisig.com
SATA Serial ATA 2.5/2.6 Specification www.sata-io.org
TPM Trusted Platform Module 1.2 https://www.trustedcomputinggroup.org
USB Universal Serial Bus Specification www.usb.org
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -7- ekf.com
CCM-BOOGIE Features
Feature Summary
Feature Summary CCM-BOOGIE
Form Factor Single size CompactPCI style Eurocard (160x100mm2), front panel width 4HP (20.3mm)
Processor Designed for Intel® Core™ 2 Duo SFF (Small Form Factor) processors (codename Penryn),
1066/800MHz FSB, maximum junction temperature 105°C, Enhanced Intel® Speedstep®
Technology
1
, Dual Core Multiprocessing 1, Intel® Virtualization Technology (VT) 1, Intel® 64
Architecture
< Core™ 2 SV • SP9300 • 2.26GHz • FSB 1066MHz • 6MB L2 Cache • 25W TDP
< Core™ 2 LV • SL9400 • 1.86GHz • FSB 1066MHz • 6MB L2 Cache • 17W TDP
< Core™ 2 ULV • SU9300 • 1.2GHz • FSB 800MHz • 3MB L2 Cache • 10W TDP
< Celeron® M ULV • 722 • 1.2GHz • FSB 800MHz • 1MB L2 Cache • 5.5W TDP
1
features not available with Celeron® M ULV 722 processor
Chipset Mobile Intel® 45 (Codename Cantiga) chipset comprised of:
< GS45 Graphics/Memory Controller Hub (GMCH) with Intel® Gen. 5.0 integrated
graphics engine with 10 fully-programmable cores, 1600x1200 dual independent
display, HW support for H.264, MPEG2, VC-1, improved 3D capability (DirectX
10/OpenGL 2.0 support), estimated 533-MHz core render clock (low-power mode
266MHz), iAMT manageability engine, option Integrated Trusted Platform Module
(ITPM)
< ICH9M-E Enhanced I/O Controller Hub, integrated GbE MAC, 12 x USB (2 x EHCI, 6 x
UHCI cntrls.), 4 x SATA 3Gbps, Intel® Matrix Storage Technology (RAID 0, 1, 5, 10),
iAMT, High Definition Audio, unified SPI Flash support
Memory (RAM) < Maximum memory capacity of 8GB DDR3 up to 1066MHz
< 512Mb, 1Gb, 2Gb, [4Gb] technologies for x8 and x16 devices
< Channel 0 populated as directly soldered DDR3 devices (Memory Down)
< Channel 1 provided as 204-pin SODIMM socket to carry DDR3 module PC3-8500
< Dual channel symmetric – memory addresses interleaved for increased performance
(SODIMM module size must match Memory Down size)
< Intel® Flex Memory Technology (dual channel interleaved mode with unequal memory
population) - memory sizes maybe unequal in both the channels
< Dual channel asymmetric – memory sizes may differ, including no memory module
populated in the SODIMM socket (single-channel)
Non Volatile
Memory (NVM)
< Intel® Turbo Memory card (codename Robson) on CCI-RAP mezzanine side board
optionally available
< PCI Express Mini Card 1G Byte Flash
< Microsoft® ReadyDrive and ReadyBoost (Windows® Vista)
< Intel® Turbo Memory driver
Video < Both (concurrently) analog monitor and digital flat-panel display support by DVI-I
connector (front panel), up to 2048x1536 pixel 16M colours @75Hz refresh rate
(analog), up to 1600 x 1200 pixel 16M colours @60Hz (digital), incorporates
PanelLink Digital technology (Silicon Image)
< Dual screen capable 2 x 1600 x 1200 pixel (one display attached to the front panel,
the other to the back panel, or both to the front panel by means of a DVI-I to DVID/VGA splitter cable, or secondary DVI-D connector on mezzanine side board)
< Front panel option: D-Sub (female HD15) VGA connector available, replaces DVI-I
connector
< Rear I/O option: Analog video output configurable (BIOS) across J2/P2 CCT-RIO rear I/O
transition module
< Mezzanine option: Secondary DVI-D connector at mezzanine card front panel allows
for dual digital flat panel operation, suitable mezzanine modules e.g. CCH-MARIACHI,
CCI-RAP, CCJ-RHYTHM, CCO-CONCERT
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
Feature Summary CCM-BOOGIE
© EKF -8- ekf.com
USB < All ports over-current protected, data transfer rate of up to 480Mbps, conforming to
USB2.0
< 2 x USB type A connector (front panel)
< 3 x USB ports J2/P2 Rear I/O option (CCT-RIO rear I/O transition module)
< 2 x USB ports via J-EXP expansion interface option (in use by several mezzanine side
boards)
< 4 x USB ports via J-HSE (C40-SCFA mezzanine storage module)
< Dual EHCI / six UHCI controllers provided by ICH9M-E
Ethernet < Two 10/100/1000Mbps Gigabit Ethernet controllers, accessible via RJ45 jacks from the
front panel
< ETH1 equipped with Intel® 82567LM PHY (codename Boazman), serves also as AMT
out of band communication path (MAC provided by ICH9M-E), Jumbo Frame support
up to 9KB
< ETH2 equipped with Intel® 82574L GbE controller (codename Hartwell), connected to
local PCIe lane, supports 9018-byte jumbo packets, TimeSync Offload compliant with
802.1as specification
< Option ETH1 Gigabit Ethernet configurable (BIOS setup) across J2/P2 with attached
CCT-RIO rear I/O transition module
SATA < Total of six 3Gbps SATA channels available
< Triple-channel Serial ATA 3Gbps available for J2/P2 rear I/O option (derived from ICH9)
< Suitable rear I/O transition module CCT-RIO (2 x system internal SATA, 1 x eSATA for
attachment of external devices)
< Intel® Matrix Storage Technology MST (Raid 1, 0, Matrix Raid)
< Secondary on-board PCIe to SATA controller JMB362, dual channel SATA RAID,
available via J-HSE expansion connector (plus 1 SATA channel in addition from ICH9)
< Additional PCIe to SATA controller on mezzanine side boards e.g. CCI-RAP,
CCK-MARIMBA, CCL-CAPELLA, CCO-CONCERT
PATA (IDE) < Option mezzanine module attached to J-HSE expansion connector
< C40-SCFA mezzanine module available with on-board SATA to PATA bridge and
CompactFlash socket
PCI Express < 4-Lane PCIe high-speed connector J-PCIE for CCJ-RHYTHM and other mezzanine
expansion cards (side boards)
< Possible configurations 1 Link x 4 Lanes, 4 Links x 1 Lane
Mezzanine
Side Board
I/O
< J-EXP Legacy expansion interface connector LPC/USB/Audio (SIO, USB, HD Audio)
< J-HSE High-speed expansion interface connector (3 x SATA, 4 x USB)
< J-PCIE PCI Express 4-lane high-speed expansion connector
< J-SDVO secondary digital graphics port high-speed expansion connector
< Suitable mezzanine companion side boards available, e.g.:
< CCI-RAP: 2 x PCI Express Mini Card sockets (WLAN, GSM, Wimax, Intel®
Turbo Memory), options secondary DVI-D, IEEE 1394 (FireWire), USB SSD,
C20-SATA mezzanine storage module (accommodates up to 2 SATA hard disk
drives 2.5-inch RAID capable)
< CCJ-RHYTHM: CompactPCI Express system slot controller function by on
board 6-port 24-lane PCIe switch, options DVI-D, IEEE 1394 (FireWire)
<
CCK-MARIMBA: PMC/XMC module carrier, option C20-SATA mezzanine
storage module
< CCL-CAPELLA: Up to 4 Gigabit Ethernet ports, options IEEE 1394 (FireWire),
USB SSD, C20-SATA mezzanine module
< CCO-CONCERT: Audio analog/digital, option secondary DVI-D
< C23-SATA: PCIe to 2 x SATA 1 x PATA controller
< C40-SCFA: SATA to PATA bridge & CompactFlash header, option USB SSD,
4HP envelope maintained
< C41-CFAST: CFast™ Flash card header, 4HP envelope maintained
< C42-SATA: 1.8-inch SATA Solid State Drive (SSD), 4HP envelope maintained
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
Feature Summary CCM-BOOGIE
© EKF -9- ekf.com
J2
Rear I/O
< Suitable rear I/O transition module CCT-RIO available
< 3 x Serial ATA (SATA), 2 x system internal SATA connectors, 1 x external eSATA
connector
< 1 x Gbit Ethernet (switched by BIOS between front panel I/O and rear I/O)
< 3 x USB
< VGA Analog Video (switched by BIOS between front panel I/O and rear I/O)
< PS/2 Keyboard, Mouse
< COM port (TTL Level)
J1
CompactPCI®
< ICH9M-E integrated 32-bit PCI bridge, 33MHz 133MBps CPCI master
< Additional PCI arbiter in PLD for fully figured 8-slot CompactPCI backplane
< +5V V(I/O) default configuration (PCI pull-up resistors 1k - blue coding key on J1)
< +3.3V V(I/O) on request (PCI pull-up resistors 2.7k - yellow coding key on J1)
CompactPCI®
Express
< CCM-BOOGIE can be configured as CompactPCI Express System Board (system slot
controller) by optionally available mezzanine expansion card (side board) CCJ-RHYTHM
< CPCIe 4-Link configuration (4-lanes each), for up to 4 CPCIe peripheral slots type 1
and/or type 2 on a passive CPCIe backplane
< Suitable also for hybrid CPCI/CPCIe systems/backplanes (e.g. Schroff)
CompactPCI®
Serial
< CCM-BOOGIE can be configured as CompactPCI Serial System Board (system slot
controller) by optionally available mezzanine expansion card (side board) SJ1-JAM
< Suitable for hybrid CompactPCI and CompactPCI Serial systems/backplanes
Platform
Management
(on Request)
< Hardware is ready for AMT 4.0 Intel® Active Management Technology (iAMT)
< ARM core based Manageability Engine (ME) in the GMCH
< Independent manageability firmware, to be stored in SPI Flash
< No iAMT BIOS support available as of current
Secure
Computing
< Option Trusted Platform Module TPM 1.2 according to Trusted Computing Group
specifications
< Choose from either integrated solution (GS45 Intel® Trusted Execution Technology),
or available as discrete controller on several mezzanine boards e.g. CCH/CCI/CCJ
< Discrete crypto engine silicon brands Infineon or Atmel at users choice
BIOS < Phoenix BIOS with EKF enhancements for embedded systems
< SPI Flash memory 2 x 16/32/64 Mb
< Updates available from website ekf.com
Drivers
(All Major OS)
< Intel® graphics driver, Intel® embedded graphics driver
< Intel® networking driver
< Intel® Matrix Storage Manager software
<
Intel® Turbo Memory driver
< JMicron SATA driver
Thermal
Conditions
Environmental
Conditions
< Operating temperature: 0°C ... +70°C (CPU dependent)
< Storage temperature: -40°C ... +85°C, max. gradient 5°C/min
< Humidity 5% ... 95% RH non condensing
< Altitude -300m ... +3000m
< Shock 15g 0.33ms, 6g 6ms
< Vibration 1g 5-2000Hz
EC Regulations < EN55022, EN55024, EN60950-1 (UL60950-1/IEC60950-1)
< 2002/95/EC (RoHS)
MTBF 141 x 10
3
h (16 years) @ 50° C
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -10- ekf.com
Typical Power
Requirements
1)
Intel®
SpeedStep®
Frequency Modes
LFM: Low
Frequency Mode,
HFM: High
Frequency Mode
2)
Add per Ethernet
port 0.4/1.2A (link
only/active)
@1Gbps or
0.1/0.4A @
100Mbps
Board
+3.3V +0.17V/-0.1V +5V +0.25V/-0.15V
MaxPower
LFM/HFM
1)
WinXP Idle
LFM/HFM
1)
MaxPower
LFM/HFM
1)
WinXP Idle
LFM/HFM
1)
CCM-6-BOOGIE
5.1/5.2A
2)
2.1/2.1A
2)
2.3/4.5A 0.3/0.5A
S3: 200mA
S4: 100mA
S5: 100mA
S3: 50mA
S4: 50mA
S5: 30mA
Performance
Rating
Measured with
PCMark2005
under Windows
XP, 2 x 2GB
DDR3 1066
Board Processor CPU/MEM Score
CCM-6-BOOGIE SP9300 5650
CCM-4-BOOGIE SL9400
CCM-2-BOOGIE SU9300
Table items are subject to technical changes
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -11- ekf.com
Short Description CCM-BOOGIE
The CCM-BOOGIE is a versatile 4HP/3U
CompactPCI
®
CPU board, equipped with an
Intel® Core™ 2 Duo processor at up to
2.26GHz clock, and up to 8GB dual channel
capable DDR3 RAM. Four native 3Gbps RAID
capable Serial ATA channels are available for
mass storage I/O, and in addition another two
from a secondary RAID controller. The
CCM-BOOGIE has been designed especially for
systems which require dual core high
performance at moderate power consumption.
The CCM-BOOGIE is provided with a high
performance mobile chipset (Intel® GS45)
which operates at up to 1066MHz FSB and up
to 1066MHz DDR3 memory clock for optimum
system throughput. The chipset is based on PCI
Express® technology and has a powerful
integrated graphics accelerator. The DVI-I front
panel connector enables dual screen video
operation. Two Gigabit Ethernet controllers are
provided for high speed connectivity (one of
them IEEE 802.1as TimeSync compliant).
The CCM-BOOGIE is equipped wit a set of local
expansion interface connectors, which can be
optionally used to directly attach a suitable
(application specific) mezzanine side board, e.g.
for audio- and legacy support, PCI Express
based I/O circuitry, and a secondary DVI video
output. Carrier board and side card come as a
readily assembled 8HP unit typically. Most
mezzanine cards can accommodate in addition
a 2.5-inch drive. Also as an option, a suitable
rear I/O transition module is available to the
CCM-BOOGIE.
As a popular add-on option, the CCM-BOOGIE
can be delivered with a small mezzanine
module (C42-SATA), which accommodates a
1.8-inch SATA solid state drive (SSD).
Alternatively, the C40-SCFA mezzanine card is
provided with an industrial grade CompactFlash
memory card, and/or an even more rugged USB
Silicon State Drive (SSD). Both mezzanine
modules fit into the 4HP envelope of the entire
assembly.
Benefits of the CCM-BOOGIE
< High Performance CompactPCI® System Slot Controller with or w/o Rear I/O
< CompactPCI® Express System Board Option (CCJ-RHYTHM Mezzanine Expansion Card)
< Hybrid Systems Option (Dual Backplane CompactPCI® & CompactPCI® Express)
< Intel® Core™ 2 Duo SV (45nm Penryn) Mobile Processor 2.26GHz 6MB L2 Cache (FSB
1066MHz)
< Scalable Series of Small Form Factor (SFF) Processors from 1.2GHz to 2.26GHz
< PCI Express Mobile Intel® 45 Express Chipset GS45 (Cantiga)
< Up to 2 x 4GB DDR3 Memory (Dual Channel Mode Capable, up to 1066MHz)
< One Memory Bank Soldered (Memory Down) for Extreme Ruggedized Systems
< Dual-Screen Graphics Controller
< Dual Gigabit Ethernet Controllers
< Four Native SATA Channels 3Gbps, Intel® Matrix Raid Storage Technology
< Two Additional SATA Channels 3Gbps, RAID capable with JMicron Drivers
< Eleven USB 2.0 channels
< CompactFlash and/or USB SSD with C40-SCFA Mezzanine Module Option (4HP
Maintained)
< SATA SSD 1.8-Inch with C42-SATA Mezzanine Module Option (4HP Maintained)
< Variety of Mezzanine Expansion Boards Available with and w/o PCIe
< TPM 1.2 Option (on Mezzanine Expansion Board or GS45 Internally)
< Rear I/O Transition Module Option
< Intel® AMT 4.0 Platform Management
< RoHS compliant
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -12- ekf.com
SPI
Flash
CompactPCI
Rear I/O
Simplified Block Diagram
CCM-BOOGIE
J-EXPJ-PCIE
J-SDVO
Opt. Mezz.
Exp. Board
Opt. Mezz.
Expansion
Board
Opt.
Mezzanine
Storage
Module
DDR3 Soldered
DDR3 SO-DIMM
82
574L
82
567LM
Panel
Link
SATA II
RAID
SPI
Flash
isp
MACH
87
61
GbE
1
GbE
2
BIOS & FW
2 x 16/32Mb
Glue Logic
PCI Arbiter
PCI
7 x PCI
USB
PCIe
HD Audio
Gigabit
Ethernet
x 4 PCIe
iAMT Gb
Ethernet
iAMT
ME
iTPM
DDR3 800/1066
2GB/4GB/8GB
Dual Channel
J1
J2
LPC
Front Panel I/O
FSB
800/1066
GS45
GMCH
ICH9M-E
RAID
iAMT
J-HSE
Video
VGA
SIO
SPI
SATA
SATA
RAID
SATA
USB
Opt. Rear I/O
CCT-RIO
KB/MS
COM
GPIO
USB
USB
DVI2/
DisplayPort
Hartwell
Boazman
GLCI
Gb ETH
DMI x 4
VGA
SDVO1
Montevina
Penryn
Cantiga
SDVO2
PCIe
RGB
DVI1
top/
bottom
VGA
D-SUB
32bit/33MHz
Core™2
2.26GHz
6MB L2
4 x PCI
SP9300 Core™2 SV
SL9400
2.26GHz/FSB1066/6MB L2
SU9300 Core™2 ULV
722 Celeron® M ULV
1.2GHz/FSB800/3MB L2
1.2GHz/FSB800/1MB L2
Core™2 LV
1.86GHz/FSB1066/6MB L2
Block Diagram CCM-BOOGIE
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -13- ekf.com
Top/Bottom View Component Assembly
© EKF ekf.com
CCM-BOOGIE
DDR3 SO-DIMM
GMCH
GS45
Dual
GB-Ethernet
DVI-I / VGA
Core™ 2
CPU
ICH9M
-E
DDR3 Soldered
NIC1
NIC2
USB
J-HSE J-EXP
J-PCIE
J-SDVO
USB
User Guide CCM-BOOGIE • High Performance Core
TM
2 Duo 3U CompactPCI® CPU Board
© EKF -14- ekf.com
Bottom View CCM-BOOGIE
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -15- ekf.com
Rear I/O Transition Module CCT-RIO
Available as a rear I/O expansion board to the
CCM-BOOGIE CPU card, the CCT-RIO is
provided with several I/O port connectors, to be
used either in addition to the CCM-BOOGIE
front panel connectors or alternatively. Being
mainly a passive rear I/O transition module,
groups of signals from the CCM-BOOGIE CPU
board are passed across the CompactPCI J2/P2
connector to the CCT-RIO. Some of the data
lines are available locally on the CCT board for
system internal wiring only, while other
connectors such as VGA-Video and Gigabit
Ethernet are mounted into the back panel for
external use. USB and SATA (eSATA) channels
are provided both on-board and externally.
Typically the CCT-RIO ist equipped with a 4-HP
rear panel (20.3mm width). As a custom
specific option, an 8-HP panel is available with
additional connectors.
Utilization of the CCT-RIO transition module
adds a level of I/O functionality that is not
available with the CCM-BOOGIE CPU board
alone. Further on, swapping the CPU card is
simplified by means of rear I/O, which is
important for efficient system maintenance
(MTTR). Be sure to have ordered a CCM-BOOGIE
rear I/O capable version and also the CPCI
backplane suitable for rear I/O in order to use
the CCT-RIO transition module.
CCT-RIO (Shown with on-Board USB Stick)
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -16- ekf.com
Rear I/O
Block Diagram
CCT-RIO
J2
4HP
Rear Panel
I/O
Option 8HP
Rear Panel
I/O
VGA
COM
Video
Ethernet
USB
CCD-CALYPSO
J2 Rear I/O
KB/MS
SATA
COM
COM
TTL RS-232E
GPIO
ETH
ADM
211
LM
3526
USB
J-COM
P-POW
+5V
USB
SATA
KB
MS
CCT-RIO Custom Specific Version
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -17- ekf.com
Strapping Headers
P_ISP PLD Programming Connector, not stuffed
P_GP Jumper to Reset BIOS CMOS RAM Values
P_RST Jumper to Reset Board
P_RTC Jumper to Reset RTC Core of ICH9, not stuffed
Connectors & Sockets
J1/J2
CompactPCI Bus 32-bit, 33MHz, PXI, Rear I/O
J_EXPT
J_EXPB
1)
Expansion Interface Connector (LPC Interface (2nd Super-I/O, 2
nd
FWH), USB Interfaces, HD Audio Interface, SMBus), available either
from top (T) or bottom (B) of the board
J_HSE High Speed Expansion Connector (2 x SATA, 4 x USB), Interface to
CompactFlash Carrier C40-SCFA
XDP1 CPU Debug Port
J_PCIE PCI Express Expansion Interface Connector
SODM1 204-pin DDR3 Memory Module SDRAM PC3-8500 Socket
1)
Stuffed on customers request only
Front Panel Elements
Ethernet
(GbE1/2)
Dual 1000Base-TX/100Base-TX/10Base-T, RJ-45 Receptacles with
integrated indicator LEDs
Graphics
(DVI-I)
DVI-I Integrated (digital & analog) Receptacle, suitable for DVI digital
flat panel displays and/or analog monitors
USB1/2 Universal Serial Bus 2.0 self powered root hub, type A receptacle
GP General Purpose LED
HD LED indicating any activity on SATA ports
PG LED indicating Power Good/Board Healthy
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -18- ekf.com
Microprocessor
The CCM-BOOGIE is designed for use with CoreTM2 Duo processors manufactured in 45nm technology
(code name Penryn). These includes also the Ultra Low-Voltage (ULV) and the Low-Voltage (LV)
CoreTM2 Duo processors as listed below. The processors are housed in a Small Form Factor (SFF) Micro
FC-BGA package for direct soldering to the PCB, i.e. the CPU chip cannot be removed or changed by
the user.
The processors supported by the CCM-BOOGIE are running at FSB clock speeds of 800MHz or
1066MHz. The internal CoreTM2 Duo processor speed is achieved by multiplying the host bus
frequency by a variable value. The multiplier is chosen by currently required performance and the
actual core temperature. To further lowering the power dissipation, the processor is able to halve its
FSB clock speed dynamically. This technology is called Enhanced Intel SpeedStep®.
Power is applied across the CompactPCI connectors J1 (3.3V, 5V). The processor core voltage is
generated by a switched voltage regulator, sourced from the 5V plane. The processor signals its
required core voltage by 7 dedicated pins according to Intels IMVP-6 voltage regulator specification.
45nm Processors Supported
Processor Number
of Cores
Speed
min/max
[GHz]
Host
Bus
[MHz]
L2
Cache
[MB]
TDP
[W]
Die Temp
[°C]
CPU ID Stepping sSpec
ULV Celeron M
722
1 1.20/1.20 800 1 5.5 0-100 TBD TBD TBD
ULV Core 2 Duo
SU9300
2 0.80/1.20 800 3 10 0-105 10676h M-0 SLB5Q
LV Core 2 Duo
SL9400
2 0.80/1.86 1066 6 17 0-105 10676h C-0 SLB66
SV Core 2 Duo
SP9300
2 0.80/2.26 1066 6 25 0-105 10676h C-0 SLB63
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -19- ekf.com
Thermal Considerations
In order to avoid malfunctioning of the CCM-BOOGIE, take care of appropriate cooling of the
processor, GMCH and system, e.g. by a cooling fan suitable to the maximum power consumption of
the CPU chip actually in use. Please note, that the processors die temperature is steadily measured by
a special controller (ADT7421), attached to the onboard SMBus® (System Management Bus). The
processor also contains a digital thermal sensor (DTS) that is readable via special CPU registers. DTS
allows to get the temperatures of each CPU core separately.
Two further temperature sensors located in the system hardware monitor LM87 allows for acquisition
of the boards surface temperature and the thermal state of the onboard system memory channel.
Beside this the LM87 also monitors most of the supply voltages. A suitable software to display both,
the temperatures as well as the supply voltages, is MBM (Motherboard Monitor), which can be
downloaded from the web. After installation, both temperatures and voltages can be observed
permanently from the Windows taskbar.
The CCM-BOOGIE is equipped with a passive heatsink. Its height takes into account the 4HP limitation
in mounting space of a CompactPCI board. In addition, a forced vertical airflow through the system
enclosure (e.g. bottom mount fan unit) is strongly recommended (>15m3/h or 200LFM around the
CPU slot). Be sure to thoroughly discuss your actual cooling needs with EKF. Generally, the faster the
CPU speed the higher its power consumption. For higher ambient temperatures, consider increasing
the forced airflow to 400 or 600LFM.
The table showing the supported processors above give also the maximum power consumption (TDP
= Thermal Design Power) of a particular processor. Fortunately, the power consumption is by far
lower when executing typical Windows or Linux tasks. The heat dissipation increases when e.g.
rendering software like the Acrobat Distiller is executed.
The CoreTM2 Duo processors support Intel's Enhanced SpeedStep® technology. This enables dynamic
switching between multiple core voltages and frequencies depending on core temperature and
currently required performance. The processors are able to reduce their core speed and core voltage
in multiple steps down to 1200MHz. Furthermore they can reduce their FSB clock speed to half the
frequency. This leads to an obvious reduction of power consumption resulting in less heating. This
mode of lowering the processor core temperature is called TM2 (TM=Thermal Monitor).
Another way to reduce power consumption is to modulate the processor clock. This mode (TM1) is
achieved by actuating the 'Stop Clock' input of the CPU. A throttling of 50% e.g. means a duty cycle
of 50% on the stop clock input. However, while saving considerable power consumption, the data
throughput of the processor is also reduced. The processor works at full speed until the core
temperature reaches a critical value. Then the processor is throttled by 50%. As soon as the high
temperature situation disappears the throttling will be disabled and the processors runs at full speed
again.
A similar feature is embedded within the Graphics and Memory Controller (GMCH) GS45. An on-die
temperature sensor is used to protect the GMCH from exceeding its maximum junction temperature
(T
J,max
=100°C) by reducing the memory bandwidth.
These features are controllable by BIOS menu entries. By default the BIOS of the CCM-BOOGIE enables
mode TM2 which is the most efficient.
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -20- ekf.com
Main Memory
The CCM-BOOGIE features two channels of DDR3 SDRAMs. One channel is realized with 8 memory
devices soldered to the board (Memory Down) and delivers a capacity of up to 4GB with a clock
frequency of 1066MHz (PC3-8500).
The 2nd channel provides a socket for installing a 204-pin SODIMM module thus allowing a simple
expansion of system memory (max. module height = 1.25 inch). Supported are unbuffered DDR3
SODIMMs (VCC=1.5V) without ECC featuring on-die termination (ODT), according the PC3-6400 or
PC3-8500 specification. Minimum module size is 256MB; maximum module size is 4GB.
Due to the video requirements of the GS45 chipset, it is recommended to add a SODIMM module
with same size as the Memory Down to get best performance (some of the system memory is
dedicated to the graphics controller). This typically results in a size of 2x1GB of memory which is
recommended to run the operating systems Windows 2000, Windows XP or Windows Vista.
The GS45 chipset supports symmetric and asymmetric memory organization. The maximum memory
performance can be obtained by using the symmetric mode. When in this mode, the GMCH accesses
the memory channels in an interleaved way. Since the GS45 supports Intels Flex Memory Technology,
interleaved operation isn't limited to systems using memory channels of equal capacity. In the case of
unequal memory population the smaller memory channel dictates the address space of the interleaved
accessible memory region. The remainder of the memory is then accessed in non-interleaved mode.
In asymmetric mode the memory always will be accessed in a non-interleaved manner with the
drawback of less bandwidth. The only meaningful application of asymmetric mode is the special case
when only one memory channel is populated (i.e. the SODIMM socket may be left empty).
The contents of the SPD EEPROM on the SO-DIMM is used by the BIOS at POST (Power-on Self Test)
to get any necessary timing parameters to program the memory controller within the chipset.
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -21- ekf.com
LAN Subsystem
The Ethernet LAN subsystem is composed of two Gigabit Ethernet ports: One Intel 82567LM Physical
Layer Transceiver (PHY) using the ICH9 internal MAC and one Intel 82574L Gigabit Ethernet Controller.
These devices provide also legacy 10Base-T and 100Base-TX connectivity. The Ethernet ports are fed
to two RJ45 jacks located in the front panel. Each port includes the following features:
C One PCI Express lane per Ethernet port (250MB/s)
C 1000Base-Tx (Gigabit Ethernet), 100Base-TX (Fast Ethernet) and 10Base-T (Classic Ethernet)
capability.
C Half- or full-duplex operation.
C IEEE 802.3u, 802.3ab Auto-Negotiation for the fastest available connection.
C Jumperless configuration (complete software-configurable).
C Two bicoloured LEDs integrated into the dedicated RJ-45 connector to signal the LAN link, the
LAN connection speed and activity status.
Each device is connected by a single PCI Express lane to the chipset (ICH9). Their MAC addresses
(unique hardware number) are stored in dedicated FLASH/EEPROM components. The Intel Ethernet
software and drivers for the 82567 and 82574 is available from Intel's World Wide Web site for
download.
When managing the board by Intel Active Management Technology (iAMT), the dedicated network
port to do so is accessible by the RJ45 connector GbE1.
Serial ATA Interface (SATA)
The CCM-BOOGIE provides six serial ATA (SATA) ports each capable of transferring 3Gbps
(300MByte/s). Three of the four ports integrated within the ICH9 are routed to the CompactPCI J2
connector, thus they are accessible via the rear I/O transition module CCT-RIO. The remainder SATA
channel of the ICH9 and two further ports coming from an additional controller (JMicron JMB362) are
fed to the high speed expansion connector J_HSE. This connector allows the installation of local
expansion boards like C40-SCFA to attach the popular CompactFlash cards.
A LED named HD located in the front panel, signals disk activity status of the SATA devices.
Available for download from Intel's and JMicron's web sites are drivers for popular operating systems,
e.g. Windows® 2000, Windows® XP, Windows® Vista and Linux.
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -22- ekf.com
Graphics Subsystem
The graphics subsystem is part of the Intel GS45 Graphics/Memory Controller Hub (GMCH). The CCMBOOGIE offers two digital (SDVO) and one analog (VGA) interface. One of the SDVO ports and the
VGA interface is provided by a DVI-I graphics connector. This is both a digital and analog interface.
Recent digital input flat-panel displays are widely available with this connector style. For classic
monitors, adapters or adapter cables can be used for converting from DVI-I to the 15-pin HD D-SUB
connector.
A special display transmitter chip is used to convert Intel's proprietary, PCI express based SDVO
interface to the differential DVI signals. The SiI1362 (Silicon Image) transmitter uses PanelLink® Digital
technology to support displays ranging from VGA to UXGA resolutions (25 - 165Mpps) in a single link
interface.
The 2
nd
SDVO port is fed to the on-board connector J_SDVO. Expansion boards like CCO-CONCERT
feature the display transmitter and provide a 2
nd
DVI channel via a pure digital DVI-D connector.
Further more J_SDVO offers the possibility to gain access to the VESA standard interface called
DisplayPort (DP) on future EKF expansion boards.
As an option, the CCM-BOOGIE can be equipped with an ordinary HD D-Sub 15-lead connector (VGA
style). This connector is suitable for analog signals only, so the PanelLink transmitter is not stuffed
with this option. Nevertheless also flat-panel displays can be attached to the D-Sub connector but
with minor reduced image quality.
Independent from the video connector actually in use, DVI or VGA, the VESA DDC 2B standard is
supported. This is a two-wire serial bus (clock, data), which is controlled by the GMCH and allows to
read out important parameters, e.g. the maximum allowable resolution, from the attached monitor.
In addition, DDC Power (+5V) is delivered to either connector. A resettable fuse is stuffed to protect
the board from an external short-circuit condition (0.75A).
Graphics drivers for the GS45 can be downloaded from the Intel web site.
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2 Duo 3U CompactPCI® CPU Board
© EKF -23- ekf.com
Real-Time Clock
The CCM-BOOGIE has a time-of-day clock and 100-year calendar, integrated into the ICH9. A battery
on the board keeps the clock current when the computer is turned off. The CCM uses a BR2032
lithium battery soldered in the board, giving an autonomy of more than 5 years. Under normal
conditions, replacement should be superfluous during lifetime of the board.
Universal Serial Bus (USB)
The CCM-BOOGIE is provided with eleven USB ports, all of them are USB 2.0 capable. Two USB
interfaces are routed to front panel connectors, two ports are feed to the expansion board interface
connectors J_EXP, four to the high speed expansion connector J_HSE, and three ports are optionally
available for rear I/O across the J2/P2 CompactPCI connector.
The front panel USB connectors can source up to 0.5A/5V each, over-current protected by two
electronic switches. Protection for the USB ports on the expansion interfaces and on the rear I/O
connector is located on expansion boards like CCO-CONCERT-MARIACHI and the CCT-RIO respective.
The USB controllers are integrated into the ICH9.
LPC Super-I/O Interface
In a modern system, legacy ports as PS/2 keyboard/mouse, COM1/2 and LPT have been replaced by
USB and Ethernet connectivity. The 1.4MB floppy disk drive has been swapped against CD- or DVDRW drives, attached to a SATA connector, or USB memory sticks. Hence, the CCM-BOOGIE is virtually
provided with all necessary I/O ports. However, for compatibility purposes the CCM is additionally
equipped with a simple Super-I/O chip, for optional rear I/O of PS/2 keyboard/mouse and COM1 (TTL
level only) across the J2/P2 CPCI connector. The Super-I/O controller resides on the local LPC bus (LPC
= Low Pin Count interface standard), which is a serialized ISA bus replacement.
As an alternative, EKF offers multiple expansion boards to the CCM-BOOGIE, featuring all classic
Super-I/O functionality. For example the CCO-CONCERT is a 3U Eurocard with a 4HP (single) width
front panel. Access to the connectors PS/2 (mouse, keyboard), COM, USB and audio in/out is given
directly from the front panel. The CCO-CONCERT connects to the CCM-BOOGIE across the connectors
PEXPT or PEXPB. Usually the CCH is attached to the top of the CCM-BOOGIE. Nevertheless bottom
side mounting is possible on customers request.
SPI Flash
The BIOS is stored in two flash devices with Serial Peripheral Interface (SPI). 4MByte of BIOS code,
AMT firmware and user data may be stored nonvolatile in these SPI flashs (up to 16MByte of flash
space is available on request).
The SPI flash contents can be reprogrammed (if suitable) by a DOS or Linux based tool. This program
and the latest CCM-BOOGIE BIOS binary are available from the EKF website. Read carefully the
enclosed instructions. If the programming procedure fails e.g. caused by a power interruption, the
CCM-BOOGIE may no more be operable. In this case you would possibly have to send in the board,
because the flash devices are directly soldered to the PCB and cannot be changed by the user.
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -24- ekf.com
Reset
The CCM-BOOGIE is provided with several supervisor circuits to monitor supply rails like the CPU core
voltage, 1.5V, 3.3V or 5V. This circuitry is responsible also to generate a clean power-on reset signal.
Due to lack of space within the front panel the CCM-BOOGIE does not offer a classical push button
to force a manual board reset. Nevertheless it is possible to reset the board manually. The ejector
within the front panel contains a micro switch that is used to generate a board reset signal. This is
done by pushing the red button of the ejector until the handle unlocks without ejecting the board.
Immediately after that push up the ejector back to its original position (the red button jumps up as
well). Animated GIF: www.ekf.com/c/ccpu/img/reset_400.gif
The 2nd function of the red push button is to act as the board's power button. When pressing besides
the reset also a power button event is created.
NOTE: To prevent the board to cause a power button override, the handle should be closed
immediately after unlocking the front panel handle. A power button override is triggered by opening
the front panel handle for at least 4 seconds. It results in bringing the board to power state S5. In
case of entering this state, unlock and lock the front panel handle a 2nd time to reenter normal power
state S0 again. See also section 'PG (Power Good) LED' to see how the CCM-BOOGIE indicates the
different power states.
WARNING: The CCM-BOOGIE will enter the power state S5 if the front panel handle is not closed
properly when the system powers up. An open handle is signalled by a yellow blinking ‘PG LED’.
The manual reset and power button functionality of the front panel handle could be controlled by
BIOS Setup.
An alternative (and recommended) way to generate a system reset is to activate the signal PRST#
located on CompactPCI connector J2 pin C17. Pulling this signal to GND will have the same effect as
to push the handle's red push button.
The healthy state of the CCM-BOOGIE is indicated by the LED PG (Power Good) located in the front
panel. This bicoloured LED signals different states of the board (see section below). As soon as this
LED begins to shine green all power voltages are within their specifications and the reset signal has
been deasserted.
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2 Duo 3U CompactPCI® CPU Board
© EKF -25- ekf.com
© EKF • ekf.com
1
2
3
4
5
6
7
8
<4s
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2 Duo 3U CompactPCI® CPU Board
© EKF -26- ekf.com
Watchdog
An important reliability feature is the watchdog function, which is programmable by software. The
behaviour of the watchdog is defined within the PLD, which activates/deactivates the watchdog and
controls its time-out period. The time-out delay is adjustable in the steps 2, 10, 50 and 255 seconds.
After alerting the WD and programming the time-out value, the related software (e.g. application
program) must trigger the watchdog periodically. To simplify watchdog programming all watchdog
related functions can be done by calling service requests (software SMI's).
The watchdog is in a passive state after a system reset. There is no need to trigger it at boot time. The
watchdog is activated on the first trigger request. If the duration between two trigger requests
exceeds the programmed period, the watchdog times out and a full system reset will be generated.
The watchdog remains in the active state until the next system reset. There is no way to disable it once
it has been put on alert, whereas it is possible to reprogram its time-out value at any time.
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PG (Power Good) LED
The CCM-BOOGIE offers a LED labelled PG located within the front panel. After system reset, this LED
defaults to signal different board states:
C Off Sleep state S3, S4 or S5
C Red steady Hardware failure
C Red blink Software failure
C Yellow Management state S3/M1, S4/M1 or S5/M1
C Yellow blink Front panel handle is unlocked
1)
C Green Healthy
1)
This feature is available from board revision 1.02.2x forward.
In the states Off or Yellow the LEDs GP and HD decode the kind of sleep state as follows:
State Description LED GP LED HD
S3 Suspend to RAM OFF ON
S4 Suspend to Disk ON OFF
S5 Soft Off ON ON
To enter the PG LED state Software failure an appropriate service request by software SMI must be
called. The PG LED remains in this red blinking state until the next SMI request is made. After that it
falls back to its default function.
HD (Hard Disk Activity) LED
The CCM-BOOGIE offers a LED marked as HD placed within the front panel. This LED signals activity
on any device attached to the SATA ports. As described above this LED may change its function
dependent on the state of the LED PG.
GP (General Purpose) LED
Another more programmable bicoloured LED can be observed from the front panel. The status of the
red part within the GP LED is controlled by the GPO18 output of the ICH9. Setting this pin to "1" will
switch on the red LED. To turn on or off the green LED an appropriate service request (software SMI)
must be made.
While the CPU card is controlled by the BIOS firmware, the GP LED is used to signal board status
information. A red blinking GP LED is an indication that the BIOS code couldn't start. For details please
refer to www.ekf.com/c/ccpu/ccm/firmware/biosinfo.txt.
After successful operating system boot, the GP LED is not dedicated to any particular hardware or
firmware function with exception of special states of the LED PG as described above. Hence it may be
freely used by customer software.
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -28- ekf.com
Hot Swap Detection
The CompactPCI specification added the signal ENUM# to the PCI bus to allow the board hot
swapping. This signal is routed to the GPI3 of the ICH9. A System Management Interrupt (SMI) can be
requested if ENUM# changes by insertion or removal of a board.
Note that the CCM-BOOGIE itself is not a hot swap device, because it makes no sense to remove the
system controller from a CompactPCI system. However, it is capable to recognize the hot swap of
peripheral boards and to start software that is doing any necessary system reconfiguration.
Power Supply Status (DEG#, FAL#)
Power supply failures may be detected before the system crashes down by monitoring the signals
DEG# or FAL#. These active low lines are additions of the CompactPCI specification and may be
driven by the power supply. DEG# signals the degrading of the supply voltages, FAL# there possible
failure. On the CCM-BOOGIE the signal FAL# is routed to the GPI4 and DEG# to the GPI5 of the
ICH9.
PXI Trigger Signals
As an option, the CCM-BOOGIE supports four of the eight trigger signals of the PXI standard, as
defined by National Instruments. The trigger signals are provided by the local SIO (Super-I/O) chip
IT8761E. GPIO20/21 are routed to TRIG0/1, and GPIO26/27 are used to control TRIG6/7. These signals
can also be used as GPIO lines in a non-PXI environment.
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -29- ekf.com
Mezzanine Side Board Options
The CCM-BOOGIE is provided with several stacking connectors for attachment of a mezzanine
expansion module (aka side board), suitable for a variety of readily available mezzanine cards (please
refer to www.ekf.com/c/ccpu/mezz_ovw.pdf for a more comprehensive overview). EKF furthermore
offers custom specific development of side boads (please contact sales@ekf.de).
Most mezzanine expansion modules require an assembly height of 8HP in total, together with the
CPU carrier board (resulting from two cards at 4HP pitch each).
In addition, cropped mezzanine modules are available for mass storage, which maintain the 4HP
envelope (see illustrations next page), for extremely compact systems. Furthermore these small size
modules may be combined with the full-size expansion boards (that means an assembly comprised of
3 PCBs).
Due to the SATA/USB mezzanine connector J-HSE, which replaces the P-IDE connector on previous
CPU cards, parallel ATA drives on earlier side cards such as the CCJ-RHYTHM are no more supported
with the CCM-BOOGIE. Please consider a low profile mezzanine module such as the C41-CFAST
(CFast™ Card), C42-SATA (1.8-inch SATA SSD) or C47-MSATA (mSATA SSD module) as storage
solution, mounted between the CCM-BOOGIE and the side card.
High Speed Expansion
SATA/RAID, USB
C40-SCFA
C42-SATA
C43-SATA
C44-SATA
Legacy Expansion
LPC, Audio, USB
C23-SATA
CCH-MARIACHI
CCI-RAP
CCJ-RHYTHM
CCK-MARIMBA
CCL-CAPELLA
J-SDVO
J-PCIE
J-EXP
SDVO Video Output
(DVI-D, HDMI, DisplayPort, VGA)
CCH-MARIACHI
CCI-RAP
CCJ-RHYTHM
CCM-BOOGIE
CCM-BOOGIE
Mezzanine Module
Expansion Options
(Side Board)
© EKF ekf.com
J-HSE
PCI Express 1x4 / 4x1
C23-SATA
CCI-RAP
CCJ-RHYTHM
CCK-MARIMBA
CCL-CAPELLA
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2 Duo 3U CompactPCI® CPU Board
© EKF -30- ekf.com
The picture below illustrates a typical mezzanine stack, comprised of the CPU carrier board (shared
front panel from 4HP to 12HP, individually tailored to customers configuration), a mezzanine side
board with a variety of PCIe and legacy interface functions (front panel and/or rear I/O), and a SATA
storage module (either SSD or hard disk, 1.8-inch or 2.5-inch, dual or single drive, RAID option).
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -31- ekf.com
CPU Board • PMC/XMC Carrier Side Card • DX1-LYNX XMC Module (Dual Drive)
User Guide CCM-BOOGIE • High Performance Core
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2 Duo 3U CompactPCI® CPU Board
© EKF -32- ekf.com
CCM-BOOGIE with C40-SCFA
C40-SCFA CompactFlash Storage Module
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C41-CFAST Storage Module on CPU Carrier Card
C41-CFAST SATA Based Storage Module
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CCM-BOOGIE with C42-SATA
C42-SATA Storage Module
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CCM-BOOGIE with C43-SATA
C43-SATA I/O Module on CPU Carrier Card
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C43-SATA Mezzanine Module
CCM-BOOGIE with C44-SATA
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CCM-BOOGIE w. C45-SATA (Internal Drive)
CCM-BOOGIE w. C45-SATA (Removable Drive)
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C47-MSATA SSD RAID Storage Module on CPU Carrier Card
C47-MSATA over CPU Carrier Card
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CCM-BOOGIE w. C23-SATA Side Board (Picture Similar)
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CCM-BOOGIE w. CCO-CONCERT Side Board (Similar Image)
CCM-BOOGIE w. CCI-RAP (Similar Image)
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CCM-BOOGIE w. CCJ-RHYTHM Side Board (Picture Similar)
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CCM-BOOGIE w. CCK-MARIMBA Side Board
CCM-BOOGIE w. CCL-CAPELLA Side Board (Similar Image)
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CCM-BOOGIE w. CCO-CONCERT C20-SATA C32-FIO
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CCM-BOOGIE w. CCO-CONCERT C20-SATA C32-FIO
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The C20-SATA is a mezzanine module, available for several side cards to the CCM-BOOGIE. The
C20-SATA storage module can be equipped with one or two 2.5-inch drives (SSD or HDD).
C20-SATA
C20-SATA Top View
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Related Documents Mezzanine Modules and Side Cards
C4x Series
Mezzanine Storage Modules
www.ekf.com/c/ccpu/c4x_mezz_ovw.pdf
Mezzanine Modules Overview www.ekf.com/c/ccpu/mezz_ovw.pdf
The EKF Mezzanine Module Concept www.ekf.com/c/ccpu/cpci_mezzanine_evolution.pdf
C20-SATA Bottom View (Dual Drive)
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Rear I/O Options
Optionally, the CCM-BOOGIE can be used for rear I/O with respect to the following functions:
• Analog Graphics
• 1 Gigabit Ethernet Port
• 3 SATA Ports
•3 USB Ports
• Keyboard, Mouse
• COM1 (TTL Level)
The pin assignment of the rear I/O connector J2 is chosen to be plugin compatible with EKFs CPU
board CCD-CALYPSO and CCG-RUMBA, thus consistent with the rear I/O module CCT-RIO.
The analog graphics and the gigabit ethernet port 1 signals are routed to multiplexers on the CCMBOOGIE. These switches, controlled by BIOS, select either the front panel or the rear I/O connection.
The COM1 port does not include the physical transceiver (TTL level only). This transceiver is located on
the rear I/O module CCT-RIO instead.
The CCM is also available in versions suitable for a 64-bit CompactPCI backplane. However, the J2/P2
pin assignments of a 64-bit CPCI backplane differ substantially from a CompactPCI rear I/O backplane.
To use the rear I/O feature the system in use must be equipped with a P2 CompactPCI rear I/O
backplane. If the system is provided with a P2 CompactPCI 64-bit backplane instead, several of the
CCM rear I/O signals will collide with the 64-bit address/data lines on the backplane, with
unpredictable results regarding the rear I/O signal integrity.
Single Slot Rear I/O Backplane EKF Part No. 932.4.01.080
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Installing and Replacing Components
Before You Begin
Warnings
The procedures in this chapter assume familiarity with the general terminology associated with
industrial electronics and with safety practices and regulatory compliance required for using and
modifying electronic equipment. Disconnect the system from its power source and from
any telecommunication links, networks or modems before performing any of the
procedures described in this chapter. Failure to disconnect power, or telecommunication
links before you open the system or perform any procedures can result in personal injury
or equipment damage. Some parts of the system can continue to operate even though
the power switch is in its off state.
Caution
Electrostatic discharge (ESD) can damage components. Perform the procedures described in this
chapter only at an ESD workstation. 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 or board front panel. Store the board only in its
original ESD protected packaging. Retain the original packaging (antistatic bag and
antistatic box) in case of returning the board to EKF for rapair.
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Installing the Board
Warning
This procedure should be done only by qualified technical personnel. Disconnect the system from its
power source before doing the procedures described here. Failure to disconnect power, or
telecommunication links before you open the system or perform any procedures can result in personal
injury or equipment damage.
Typically you will perform the following steps:
C Switch off the system, remove the AC power cord
C Attach your antistatic wrist strap to a metallic part of the system
C Remove the board packaging, be sure to touch the board only at the front panel
C Identify the related CompactPCI slot (peripheral slot for I/O boards, system slot for CPU boards,
with the system slot typically most right or most left to the backplane)
C Insert card carefully (be sure not to damage components mounted on the bottom side of the
board by scratching neighboured front panels)
C A card with onboard connectors requires attachment of associated cabling now
C Lock the ejector lever, fix screws at the front panel (top/bottom)
C Retain original packaging in case of return
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Removing the Board
Warning
This procedure should be done only by qualified technical personnel. Disconnect the system from its
power source before doing the procedures described here. Failure to disconnect power, or
telecommunication links before you open the system or perform any procedures can result in personal
injury or equipment damage.
Typically you will perform the following steps:
C Switch off the system, remove the AC power cord
C Attach your antistatic wrist strap to a metallic part of the system
C Identify the board, be sure to touch the board only at the front panel
C unfasten both front panel screws (top/bottom), unlock the ejector lever
C Remove any onboard cabling assembly
C Activate the ejector lever
C Remove the card carefully (be sure not to damage components mounted on the bottom side
of the board by scratching neighboured front panels)
C Store board in the original packaging, do not touch any components, hold the board at the
front panel only
Warning
Do not expose the card to fire. Battery cells and other components could explode
and cause personal injury.
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EMC Recommendations
In order to comply with the CE regulations for EMC, it is mandatory to observe the following rules:
C The chassis or rack including other boards in use must comply entirely with CE
C Close all board slots not in use with a blind front panel
C Front panels must be fastened by built-in screws
C Cover any unused front panel mounted connector with a shielding cap
C External communications cable assemblies must be shielded (shield connected only at one end
of the cable)
C Use ferrite beads for cabling wherever appropriate
C Some connectors may require additional isolating parts
Reccomended Accessories
Blind CPCI Front
Panels
EKF Elektronik Widths currently available
(1HP=5.08mm):
with handle 4HP/8HP
without handle
2HP/4HP/8HP/10HP/12HP
Ferrit Bead Filters ARP Datacom,
63115 Dietzenbach
Ordering No.
102 820 (cable diameter 6.5mm)
102 821 (cable diameter 10.0mm)
102 822 (cable diameter 13.0mm)
Metal Shielding
Caps
Conec-Polytronic,
59557 Lippstadt
Ordering No.
CDFA 09 165 X 13129 X (DB9)
CDSFA 15 165 X 12979 X (DB15)
CDSFA 25 165 X 12989 X (DB25)
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Installing or Replacing the Memory Module
Note: If you decide to replace the memory, observe the precautions in 'Before You Begin'
By default, the CCM-BOOGIE is delivered with onboard memory only, the SODIMM DDR3 SDRAM
socket is empty.
To expand the memory a DDR3 SDRAM SODIMM module may be inserted in the socket SODM1. It is
necessary to use an SODIMM that provide Serial Presence Detect (SPD) information, since this allows
the chipset to accurately configure the memory settings for optimum performance.
A replacement memory module must match the 204-pin SODIMM form factor (known from
Notebook PCs), DDR3, VCC=1.5V, PC3-6400/PC3-8500 (800/1066MHz), on-die termination (ODT),
unbuffered, non-ECC style. Suitable modules are available up to 4GB. The GS45 supports modules of
up to a maximum of 15 address lines (A0...A14). Memory modules organized by more than 15
address lines are not suitable.
Replacement of the Battery
When your system is turned off, a battery maintains the voltage to run the time-of-day clock and to
keep the values in the CMOS RAM. The battery should last during the lifetime of the CCM-BOOGIE.
For replacement, the old battery must be unsoldered, and the new one soldered. We suggest that you
send back the board to EKF for battery replacement.
Warning
Danger of explosion if the battery is incorrectly replaced or shorted. Replace only with
the same or equivalent type. Do not expose a battery to fire.
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Technical Reference
Local PCI Devices
The following table shows the on-board PCI devices and their location within the PCI configuration
space. These devices consist of the Ethernet controllers and several devices within the Intel 4 series
express chip set.
Bus
Number
Device
Number
Function
Number
Vendor ID Device ID Description
0 0 0 0x8086 0x2A40 Host Bridge
0 2 0 0x8086 0x2A42 Internal Graphics Device
0 2 1 0x8086 0x2A43 PCI Configuration Regs.
0 3 0 0x8086 0x2A44 Management Engine 1
0 3 1 0x8086 0x2A45 Management Engine 2
0 3 2 0x8086 0x2A46 AMT IDER
0 3 3 0x8086 0x2A47 AMT SOL Redirection
0 25 0 0x8086 0x10F5 ICH9 Gigabit LAN NC1
0 26 0 0x8086 0x2937 USB UHCI Controller #4
0 26 1 0x8086 0x2938 USB UHCI Controller #5
0 26 2 0x8086 0x2939 USB UHCI Controller #6
0 26 7 0x8086 0x293C USB 2.0 EHCI Controller #2
0 27 0 0x8086 0x293E Intel High Definition Audio
0 28 0 0x8086 0x2940 PCI Express Port 1
0 28 1 0x8086 0x2942 PCI Express Port 2
0 28 2 0x8086 0x2944 PCI Express Port 3
0 28 3 0x8086 0x2946 PCI Express Port 4
0 28 4 0x8086 0x2948 PCI Express Port 5
0 28 5 0x8086 0x294A PCI Express Port 6
0 29 0 0x8086 0x2934 USB UHCI Controller #1
0 29 1 0x8086 0x2935 USB UHCI Controller #2
0 29 2 0x8086 0x2936 USB UHCI Controller #3
0 29 3 0x8086 0x2939 USB UHCI Controller #6
0 29 7 0x8086 0x293A USB 2.0 EHCI Controller #1
0 30 0 0x8086 0x2448 DMI-to-PCI Bridge
0 31 0 0x8086 0x2917 LPC Bridge
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Bus
Number
Device
Number
Function
Number
Vendor ID Device ID Description
© EKF -54- ekf.com
0 31 2 0x8086 0x2928
0x2929
0x282A
SATA: Non-AHCI/RAID
1)
SATA: AHCI Mode
1)
SATA: RAID 0/1/5/10 Mode
1)
0 31 3 0x8086 0x2930 SMB Controller
0 31 5 0x8086 0x292D SATA Controller #2
0 31 6 0x8086 0x2932 Thermal Controller
1
2)
0 0 0x197B 0x2363 PCIe-SATA-Bridge (JMB362)
3
2)
0 0 0x8086 0x10D3 Ethernet Controller NC2
1)
Depends on BIOS implementation.
2)
Bus number can vary depending on the PCI enumeration schema implemented in BIOS.
Local SMB Devices
The CCM-BOOGIE contains a few devices that are reachable via the System Management Bus (SMBus).
These are the clock generation chip, the SPD EEPROMs for the onboard memory channel or located
on the SODIMM memory module, a general purpose serial EEPROM and two supply voltage and CPU
temperature controlling devices in particular. Other devices could be connected to the SMBus via the
CompactPCI signals IPMB SCL (J1 B17) and IPMB SDA (J1 C17) or pins 29/30 of the expansion
connectors J_EXPT/J_EXPB.
Address Description
0x58 Hardware Monitor/CPU Temperature Sensor (LM87)
0x98 Processor On-Die Temerature Sensor (ADT7421)
0xA0 SPD of Onboard Memory
0xA4 SPD of SODIMM
0xAE General Purpose EEPROM
0xD2 Main Clock Generation (CK-505)
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Hardware Monitor LM87
Located on the SMBus the CCM-BOOGIE offers a hardware monitor of type LM87/NSC. This device is
capable to observe board and onboard memory temperatures as well as several supply voltages
generated on the board with a resolution of 8 bit. The following table shows the mapping of the
voltage inputs of the LM87 to the corresponding supply voltages of the CCM-BOOGIE:
Input Source Resolution
[mV]
Register
AIN1 CPU Core Voltage 9.8 0x28
AIN2 +1.05V 9.8 0x29
VCCP1 +1.5V 14.1 0x21
VCCP2/D2- +1.8V 14.1 0x25
+2.5V/D2+ +0.75V 13 0x20
+3.3V +3.3V 17.2 0x22
+5V +5V 26 0x23
+12V +10V 62.5 0x24
Beside the continuous measuring of temperatures and voltages the LM87 may compare these values
against programmable upper and lower boundaries. As soon as a measurement violates the allowed
value, the LM87 may request an interrupt via the GPI[8] of the ICH9.
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GPIO Usage
GPIO Usage ICH9
CCM-BOOGIE GPIO Usage ICH9
GPIO Type Tol. Function Description
GPIO 0 I/O 3.3V PMSYNC# Multiplexed with chipset internal function
GPIO 1 I 3.3V EXP_SMI# Expansion Interface SMI Request (J_EXP Pin 15)
GPIO 2 I 5V CPCI_INTP CompactPCI Interrupt Request Line INTP
GPIO 3 I 5V CPCI_ENUM# CompactPCI System Enumeration Line ENUM#
GPIO 4 I 5V CPCI_FAL# CompactPCI Power Failure Line FAL#
GPIO 5 I 5V CPCI_DEG# CompactPCI Power Degeneration Line DEG#
GPIO 6 O 3.3V CPCI_INTS_EN Connect SERIRQ to CompactPCI Line INTS
LOW: SERIRQ disconnected from INTS
HIGH: SERIRQ connected to INTS
GPIO 7 I 3.3V CPCI_SYSEN# Sense CompactPCI System Slot Enable Line SYSEN#
GPIO 8 I 3.3V HM_INT# Hardware Monitor LM87 Interrupt Line
GPIO 9 I/O 3.3V N/A Not used on CCM (fixed via resistor to GND)
GPIO 10 I 3.3V N/A Not used on CCM (fixed via resistor to +3.3V)
GPIO 11 I 3.3V GP_JUMP# BIOS CMOS Values Reset Jumper P_GP
GPIO 12 I 3.3V N/A Not used on CCM (fixed via resistor to GND)
GPIO 13 I 3.3V N/A Not used on CCM (fixed via resistor to GND)
GPIO 14 I 3.3V N/A Not used on CCM (fixed via resistor to +3.3V)
GPIO 15 O 3.3V STP_PCI# Fixed to chipset internal function
GPIO 16 O 3.3V DPRSLPVR Multiplexed with chipset internal function
GPIO 17 O 3.3V CPCI_CLKEN Enable CompactPCI Clock Buffer
GPIO 18 O 3.3V GP_LED_RED General Purpose LED Control (via PLD)
GPIO 19 O 3.3V PLD_SCL Local Option Reg Interface (within PLD)
GPIO 20 O 3.3V SE_SYS_WP General Purpose Serial EEPROM Write Protection
GPIO 21 O 3.3V PLD_SDA Local Option Reg Interface (within PLD)
GPIO 22 I 3.3V HWREV2 PCB Revision Code Bit 2 (see GPIO 34)
GPIO 23 I 3.3V LPC_DRQEXP# Expansion Interface LPC DMA Request Line
GPIO 24 O 3.3V CPCI_SMB_EN Connect SMBus of CPCI IPMB/J_EXP to local SMBus
LOW: IPMB/J_EXP disconnected from SMBus
HIGH: IPMB/J_EXP connected to SMBus
GPIO 25 O 3.3V STP_CPU# Fixed to chipset internal function
GPIO 26 O 3.3V N/A Multiplexed to chipset internal function
GPIO 27 O 3.3V VGA_SWITCH VGA Switching Line:
LOW: VGA via Rear I/O
HIGH: VGA via Front I/O
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CCM-BOOGIE GPIO Usage ICH9
GPIO Type Tol. Function Description
© EKF -57- ekf.com
GPIO 28 O 3.3V ETH_SWITCH Ethernet Switching Line:
LOW: Ethernet Port #1 via Rear I/O
HIGH: Ethernet Port #1 via Front I/O
GPIO 29 I 3.3V CPCI_12VOK CompactPCI +12V Present
GPIO 30 I 3.3V USB_OC6# USB Port #6 Overcurrent Detect Line
GPIO 31 I 3.3V USB_OC7# USB Port #7 Overcurrent Detect Line
GPIO 32 I/O 3.3V CLKRUN# Fixed to chipset internal function
GPIO 33 O 3.3V NC2_EN Enable Ethernet Controller NC2
GPIO 34 I 3.3V HWREV0 PCB Revision Code Bit 0:
GPIO 22/48/34 000 001 010 ... 100 ... 111
Revision 0 1 2 4 7
GPIO 35 OD 3.3V SATACLKREQ# Multiplexed to chipset internal function
GPIO 36-39 I 3.3V BOARD_CFG Board Configuration Jumpers
GPIO 40 I 3.3V USB_OC2# USB Front Panel Lower Port Overcurrent Detect
GPIO 41 I 3.3V USB_J2_OC# USB Rear I/O Port #1 or #2 Overcurrent Detect
GPIO 42 I 3.3V USB_J2_OC# USB Rear I/O Port #1 or #2 Overcurrent Detect
GPIO 43 I 3.3V N/A Not used on CCM (fixed via resistor to +3.3V)
GPIO 44 I 3.3V USB_HSE_OC3# USB High Speed Expansion J_HSE Port #3 Overcurrent Detect
GPIO 45 I 3.3V USB_HSE_OC4# USB J_HSE Port #4 Overcurrent Detect
GPIO 46 I 3.3V USB_EXP_OC# USB J_EXP Port #1 or #2 Overcurrent Detect
GPIO 47 I 3.3V USB_EXP_OC# USB J_EXP Port #1 or #2 Overcurrent Detect
GPIO 48 I 3.3V HWREV1 PCB Revision Code Bit 1 (see GPIO 34)
GPIO 49 O 3.3V N/A Not used on CCM
GPIO 50 I 5V CPCI_REQ1# CompactPCI Bus Request Line CPCI_REQ1#
GPIO 51 O 3.3V CPCI_GNT1# CompactPCI Bus Grant Line CPCI_GNT1#
GPIO 52 I 5V CPCI_REQ2# CompactPCI Bus Request Line CPCI_REQ2#
GPIO 53 O 3.3V CPCI_GNT2# CompactPCI Bus Grant Line CPCI_GNT2#
GPIO 54 I 5V CPCI_REQ3# CompactPCI Bus Request Line CPCI_REQ3#
GPIO 55 O 3.3V CPCI_GNT3# CompactPCI Bus Grant Line CPCI_GNT3#
GPIO 56 I 3.3V WDOGRST Last Hardware Reset caused by watchdog
GPIO 57 I 3.3V N/A Not used on CCM (fixed via resistor to GND)
GPIO 58 O 3.3V SPI_CS1# Multiplexed to chipset internal function
GPIO 59 I 3.3V USB_OC1# USB Front Panel Upper Port Overcurrent Detect
GPIO 60 O 3.3V N/A Not used on CCM (fixed via resistor to +3.3V)
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GPIO Usage SIO
CCM-BOOGIE GPIO Usage SIO
GPIO Type Tol. Function Description
GPIO 13 I 5V
1)
CPCI_64EN# Sense CompactPCI 64-Bit Backplane (J2 Pin B5)
GPIO 14/15 I/O 5V/8mA
1)
N/A Not used on CCM
GPIO 16/17 I/O 5V/24mA
1)
N/A Not used on CCM
GPIO 20 I/O 5V/8mA
1)
PXI_TRIG0 PXI Trigger 0 on CompactPCI J2 Pin B16
GPIO 21 I/O 5V/8mA
1)
PXI_TRIG1 PXI Trigger 1 on CompactPCI J2 Pin A16
GPIO 22-25 I/O 5V/24mA
1)
N/A Not used on CCM
GPIO 26 I/O 5V/24mA
1)
PXI_TRIG6 PXI Trigger 6 on CompactPCI J2 Pin E18
GPIO 27 I/O 5V/24mA
1)
PXI_TRIG7 PXI Trigger 7 on CompactPCI J2 Pin E16
1)
These GPIOs have pullup resistors of approx. 50kΩ within the SIO.
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Configuration Jumpers
Reset Jumper BIOS CMOS RAM Values (P_GP)
The jumper P_GP is used to bring the contents of the battery backed CMOS RAM to a default state.
The BIOS uses the CMOS to store configuration values, e.g. the actual boot devices. Using this jumper
is only necessary, if it is not possible to enter the setup of the BIOS. To reset the CMOS RAM mount
a jumper on P_GP and perform a system reset. As long as the jumper is stuffed the BIOS will use the
default CMOS values after any system reset. To get normal operation again, the jumper has to be
removed.
P_GP Function
Jumper OFF 1)No CMOS reset performed
Jumper ON CMOS reset performed
1)
This setting is the factory default.
Reset Jumper ICH9 RTC Core (P_RTC)
The jumper P_RTC is used to reset the battery backed core of the ICH9. This effects some registers
within the ICH9 RTC core that are important before the CPU starts its work after a system reset. Note
that P_RTC will neither perform the clearing of the CMOS RAM values nor resets the real time clock.
To reset the RTC core the board must be removed from the system rack. Short-circuit the pins of
P_RTC for about 1 sec. After that reinstall the board to the system and switch on the power. It is
important to accomplish the RTC reset while the board has no power.
P_RTC Function
Jumper OFF
1)
No RTC reset performed
Jumper ON RTC reset performed
1)
This setting is the factory default.
P_GP
1=GPI 2=GND
1
P_RTC
1=RTCRST# 2=GND
1
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Connectors
Caution
Some of the internal connectors provide operating voltage (3.3V and 5V) to devices inside the system
chassis, such as internal peripherals. Not all of these connectors are overcurrent protected. Do not use
these internal connectors for powering devices external to the computer chassis. A fault in the load
presented by the external devices could cause damage to the board, the interconnecting cable and
the external devices themselves.
Front Panel Connectors
Typical CCM-BOOGIE Front Panel Elements
USB
G-ETH G-ETH
USB
P
G
P
G
G
P
H
D
H
D
G
P
V
G
A
D
V
I
I
CCM-BOOGIE
DVI
CCM-BOOGIE
VGA
© EKF • draft - do not scale • ekf.com
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Video Monitor Connector J_DVI
J_DVI
17 TX0- 9 TX1- 1 TX2-
18 TX0+ 10 TX1+ 2 TX2+
19 GND 11 GND 3 GND
20 12 4
21 13 5
22 GND 14 DDC_POW
1)
6 DVI_DDC_SCL
23 TXC+ 15 GND 7 DVI_DDC_SDA
24 TXC- 16 DVI_HP 8 VSYNC
2)
c3 BLUE
2)
c1 RED
2)
c6 GND c5 GND
c4 HSYNC
2)
c2 GREEN
2)
1)
+5V protoected by a PolySwitch Fuse 0.75A.
2)
This signal may be switched either to the front connector or to the rear I/O adapter CCT-RIO.
For attachment of an ordinary analog RGB monitor to the J_DVI receptacle, there are both adapters
and also adapter cables available from J_DVI to the HD-SUB15 connector. Attachment of digital
monitors (flat panel displays) should be done by means of a DVI to DVI cable (single link style cable is
sufficient).
19
17
824
16
c1
c2
c3
c4
c5
c6
261.70.029.01 • © EKF • ekf.com
DVI
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111
5
15
10
6
Video Monitor Connector J_VGA
As an option, the CCM-BOOGIE can be equipped with a legacy VGA connector (High-Density D-Sub
15-position female connector). The connector J_VGA replaces the J_DVI receptacle, and the digital
video interface therefore is not available with this option.
J_VGA (Option)
1RED
2)
2 GREEN
2)
3BLUE
2)
4NC
5GND
6GND
7GND
8GND
9 DDC_POW
1)
10 GND
11 NC
12 VGA_DDC_SDA
2)
13 HSYNC
2)
14 VSYNC
2)
15 VGA_DDC_SCL
2)
1)
+5V protoected by a PolySwitch Fuse 0.75A
2)
This signal may be switched either to the front connector or to the rear I/O adapter CCT-RIO.
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USB Connectors
USB Ports 1/2 (J_USB1/J_USB2)
1POW
1)
2USB DATA NEG
3USB DATA POS
4GND
1) +5V protected by an Electronic Fuse 0.5A
14
USB Receptacle
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270.20.04.1
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2 Duo 3U CompactPCI® CPU Board
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1
1
270.02.08.5
Ethernet Connectors
G-ETH1/2 (RJ45)
1 NC1_MDX0+
1)
2 NC1_MDX0-
1)
3 NC1_MDX1+
1)
4 NC1_MDX2+
1)
5 NC1_MDX2-
1)
6 NC1_MDX1-
1)
7 NC1_MDX3+
1)
8 NC1_MDX3-
1)
1NC2_MDX0+
2NC2_MDX0-
3NC2_MDX1+
4NC2_MDX2+
5NC2_MDX2-
6NC2_MDX1-
7NC2_MDX3+
8NC2_MDX3-
1)
This signal may be switched either to the front connector or to the rear I/O adapter CCT-RIO.
The upper green/yellow dual-LED signals 1Gbit/s when lit yellow, 100Mbit/s when lit green, and
10Mbit/s when off. The lower green LED indicates LINK established when continuously on, and data
transfer (activity) when blinking. If the lower green LED is permanently off, no LINK is established.
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Internal Connectors
Expansion Interface Header J_EXP
J_EXPT (J_EXPB optinal)
GND 1 2 +3.3V
1)
PCI_CLK 3 4 PLTRST#
LPC_AD056LPC_AD1
LPC_AD278LPC_AD3
LPC_FRM# 9 10 LPC_DRQ#
GND 11 12 +3.3V
1)
SERIRQ 13 14 EXP_PME#
EXP_SMI# 15 16 SIO_CLK14
FWH_ID0 17 18 FWH_INIT#
ICH_RCIN# 19 20 ICH_A20GATE
GND 21 22 +5V
1)
USB_EXP_P2- 23 24 USB_EXP_P1-
USB_EXP_P2+ 25 26 USB_EXP_P1+
USB_EXP_OC# 27 28 H_DBRESET#
EXP_SCL
2)
29 30 EXP_SDA
2)
GND 31 32 +5V
1)
HDA_SDOUT 33 34 HDA_SDIN0
HDA_RST#/CL_RST#
3)
35 36 HDA_SYNC
HDA_BITCLK/CL_CLK
3)
37 38 HDA_SDIN1/CL_DATA
3)
SPEAKER 39 40 +12V
4)
1)
Power rail switched on in state S0 only.
2)
Connected to SMBus via switch, isolated after PCI reset.
3)
Stuffing option, default is the HDA option.
4)
Unswitched power rail (switched on always).
The expansion interface header footprint is available on both sides of the board, top and bottom.
Nevertheless the bottom side connector is stuffed only on customers request.
WARNING: Neither the +3.3V pin, nor the +5V pin, nor the +12V pin are protected against a short
circuit situation! This connector therefore should be used only for attachment of an expansion board.
The maximum current flowing across these pins should be limited to 2A per power rail.
21
1.27mm
Socket
40
© EKF 276.53.040.01 ekf.com
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High Speed Expansion Connector J_HSE
High Speed Expansion J_HSE
GND a1 b1 GND
SATA_HSE1_TXP
3) 6)
a2 b2 SATA_HSE3_TXP
4) 6)
SATA_HSE1_TXN
3) 6)
a3 b3 SATA_HSE3_TXN
4) 6)
GND a4 b4 GND
SATA_HSE1_RXN
3) 6)
a5 b5 SATA_HSE3_RXN
4) 6)
SATA_HSE1_RXP
3) 6)
a6 b6 SATA_HSE3_RXP
4) 6)
GND a7 b7 GND
SATA_HSE2_TXP
4) 6)
a8 b8 SATA_HSE4_TXP
5) 6)
SATA_HSE2_TXN
4) 6)
a9 b9 SATA_HSE4_TXN
5) 6)
GND a10 b10 GND
SATA_HSE2_RXN
4) 6)
a11 b11 SATA_HSE4_RXN
5) 6)
SATA_HSE2_RXP
4) 6)
a12 b12 SATA_HSE4_RXP
5) 6)
GND a13 b13 GND
USB_HSE1_P a14 b14 USB_HSE3_P
USB_HSE1_N a15 b15 USB_HSE3_N
GND a16 b16 GND
USB_HSE2_P a17 b17 USB_HSE4_P
USB_HSE2_N a18 b18 USB_HSE4_N
GND a19 b19 GND
USB_HSE1_OC# a20 b20 USB_HSE3_OC#
USB_HSE2_OC# a21 b21 USB_HSE4_OC4
+3.3VS
1)
a22 b22 +5VS
1)
+3.3VS
1)
a23 b23 +5VS
1)
+3.3VA
2)
a24 b24 +5VA
2)
+12VA
2)
a25 b25 RSVD
1)
Power rail switched on in state S0 only.
2)
Power rail switched on with system power.
3)
This SATA channel has been derived from ICH9.
4)
These SATA channels are derived from the JMB362.
5)
For future use, not connected on CCM-BOOGIE.
6)
All TX/RX designations with respect to SATA controller.
WARNING: Neither the +3.3V pins, nor the +5V pins, nor the +12VA pin are protected against a
short circuit situation! This connector therefore should be used only for attachment of the C40-SCFA
adapter or an expansion board. The maximum current flowing across these pins should be limited to
2A per power rail.
a1
s1
s9 s18
s10
a25
b25
b1
1.00mm Pitch High Speed Female Connector (H=8mm)
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Mounting Area for Low Profile Mezzanine Storage Modules
Sample J_HSE Based Low Profile Mezzanine Module
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PCI Express Expansion Header J_PCIE
J_PCIE
GND 1 2 GND
+5V
1)
34 +3.3V
1)
+5V
1)
56 +3.3V
1)
GND 7 8 GND
PE_CLKP 9 10 PLTRST#
PE_CLKN 11 12 PE_WAKE#
GND 13 14 GND
PE_1TP 15 16 PE_1RP
PE_1TN 17 18 PE_1RN
GND 19 20 GND
GND 21 22 GND
PE_2TP 23 24 PE_2RP
PE_2TN 25 26 PE_2RN
GND 27 28 GND
PE_3TP 29 30 PE_3RP
PE_3TN 31 32 PE_3RN
GND 33 34 GND
PE_4TP 35 36 PE_4RP
PE_4TN 37 38 PE_4RN
GND 39 40 GND
1)
Power rail switched on in state S0 only.
WARNING: Neither the +3.3V pin, nor the +5V pin are protected against a short circuit situation!
The maximum current flowing across these pins should be limited to 2A per power rail.
1
2
PCI Express x 4
High Speed Socket Connector
Top
View
on
CPU
Carrier
Board
290.1.040.080
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1
2
PCI Express
High Speed Socket Connector
290.1.020.08
0
SDVO Expansion Header J_SDVO
J_SDVO
GND 1 2 GND
SDVO_RED+ 3 4 SDVO_CLK+
SDVO_RED- 5 6 SDVO_CLK-
GND 7 8 GND
SDVO_GREEN+ 9 10 SDVO_INT+
SDVO_GREEN- 11 12 SDVO_INT-
GND 13 14 GND
SDVO_BLUE+ 15 16 SDVO_CTR_CLK
SDVO_BLUE- 17 18 SDVO_CTR_DATA
GND 19 20 GND
System Reset Header P_RST
The jumper P_RST is used to perform a manually system reset. By default P_RST is connected with a
short cable to a micro switch located within the front panel handle. The switch performs a system
reset by short-circuiting the pins 1 and 3 of P_RST.
P_RST
1=RESET# 2=NC 3=GND
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PLD Programming Header P_ISP
Note: P_ISP is not stuffed. Its footprint is situated at the bottom side of the board.
Processor Debug Header XDP1
XDP1
1 PREQ#/BPM5# BCLKN/HOOK5 13
2PRDY#/BPM4# VCC 14
3 GND RST#/HOOK6 15
4 BPM3# DBR#/HOOK7 16
5BPM2# GND 17
6GND TDO18
7BPM1# TRST#19
8BPM0# TDI 20
9GND TMS21
10 PWRGD/HOOK0 TCK1 (NC) 22
11 HOOK2 (NC) GND 23
12 BCLKP/HOOK4 TCK0 24
Note: XDP1 is not stuffed. Its footprint is situated at the bottom side of the board.
P_ISP
1=3.3V 2=TDO 3=TDI 4=NC
5=KEY 6=TMS 7=GND 8=TCK
1
240.1.08.ISP
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CompactPCI J1
J1 A B C D E
25 5V REQ64#
2)
ENUM#
1)
3.3V 5V
24 AD1 5V V(I/O) AD0 ACK64#
2)
23 3.3V AD4 AD3 5V AD2
22 AD7 GND 3.3V AD6 AD5
21 3.3V AD9 AD8 M66EN
3)
C/BE0#
20 AD12 GND V(I/O) AD11 AD10
19 3.3V AD15 AD14 GND AD13
18 SERR#
1)
GND 3.3V PAR C/BE1#
17 3.3V IPMB SCL
4)
IPMB SDA
4)
GND PERR#
1)
16 DEVSEL#
1)
GND V(I/O) STOP#
1)
LOCK#
1)
15 3.3V FRAME#
1)
IRDY#
1)
GND/BD_SEL#
5)
TRDY#
1)
14
KEY AREA
13
12
11 AD18 AD17 AD16 GND C/BE2#
10 AD21 GND 3.3V AD20 AD19
9 C/BE3# GND AD23 GND AD22
8 AD26 GND V(I/O) AD25 AD24
7 AD30 AD29 AD28 GND AD27
6 REQ#
1)
GND 3.3V CLK AD31
5 BRSVP1A5
5)
BRSVP1B5
5)
RST# GND GNT#
4 IPMB PWR GND V(I/O) INTP
1)
INTS
1)
3 INTA#
1)
INTB#
1)
INTC#
1)
5V INTD#
1)
2 TCK
5)
5V TMS
5)
TDO
5)
TDI
5)
1 5V -12V
6)
TRST#
5)
+12V 5V
1)
This pin is pulled up with 1kΩ to V(I/O). Other pull up resistor values (e.g. 2.7kΩ for V(I/O)=+3.3V) are available on
request.
2)
This pin is not used on CCM-BOOGIE, but pulled up with 1kΩ to V(I/O). Other pull up resistor values on request.
3)
This pin is fixed to GND on CCM-BOOGIE to force 33MHz operation since 66MHz operation is not supported.
4)
This pin is pulled up with 3.0k to J1 pin A4.
5)
This pin is not connected.
6)
This pin is not used on CCM-BOOGIE.
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CompactPCI J2
J2 A B C D E
22 GA4
5)
GA3
5)
GA2
5)
GA1
5)
GA0
5)
21 CLK6 GND RSV
NC1_MX2-
RSV
NC1_MX3-
RSV
NC1_MX3+
20 CLK5 GND RSV
NC1_MX2+
GND RSV
NC1_MX0+
19 GND GND RSV
NC1_MX1-
RSV
NC1_MX1+
RSV
NC1_MX0-
18 BRSVP2A18
VGA_RED
BRSVP2B18
VGA_GREEN
BRSVP2C18
VGA_HSYNC
GND BRSVP2E18
PXI_TRIG6
3)
VGA_VSYNC
17 BRSVP2A17
VGA_BLUE
GND PRST#
1)
REQ6#
1)
GNT6#
16 BRSVP2A16
PXI_TRIG1
3)
BRSVP2B16
PXI_TRIG0
3)
DDC_SCL
2)
DEG#
1)
GND BRSVP2E16
PXI_TRIG7
3)
DDC_SDA
2)
15 BRSVP2A15 GND FAL#
1)
REQ5#
1)
GNT5#
14 AD35
1)
SATA_2RN
AD34
1)
SATA_2RP
AD33
1)
SATA_ACT#
GND AD32
1)
GND
13 AD38
1)
GND
GND V(I/O) AD37
1)
SATA_2TP
AD36
1)
SATA_2TN
12 AD42
1)
SATA_1RN
AD41
1)
SATA_1RP
AD40
1)
GND AD39
1)
GND
11 AD45
1)
GND
GND V(I/O) AD44
1)
SATA_1TP
AD43
1)
SATA_1TN
10 AD49
1)
SATA_0RN
AD48
1)
SATA_0RP
AD47
1)
GND AD46
1)
GND
9 AD52
1)
GND
GND V(I/O) AD51
1)
USB_P4P
AD50
1)
USB_P4N
8 AD56
1)
SATA_0TN
AD55
1)
SATA_0TP
AD54
1)
GND
GND
COM1_DSR#
AD53
1)
COM1_TXD
7 AD59
1)
COM1_DTR#
GND
COM1_CTS#
V(I/O)
COM1_RXD
AD58
1)
COM1_RTS#
AD57
1)
COM1_DCD#
6 AD63
1)
USB_P2P
AD62
1)
USB_P2N
AD61
1)
USB_P3P
GND
USB_OC34#
AD60
1)
USB_P3N
5 C/BE5#
1)
+5V/1.5A
4)
64EN#
1)
V(I/O) C/BE4#
1)
MS_DATA
PAR64
1)
MS_CLK
4 V(I/O) BRSVP2B4
6)
+5V/1.5A
4)
C/BE7#
1)
KB_DATA
GND C/BE6#
1)
KB_CLK
3 CLK4 GND GNT3# REQ4#
1)
GNT4#
2 CLK2 CLK3 SYSEN#
7)
GNT2# REQ3#
1)
1 CLK1 GND REQ1#
1)
GNT1# REQ2#
1)
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1)
This pin is pulled up with 1kΩ to V(I/O). Other pull up resistor values (e.g. 2.7kΩ for V(I/O)=+3.3V) are available on
request.
2)
This pin is pulled up via a QuickSwitch with 2.2kΩ to +3.3V.
3)
This pin is pulled up with 10kΩ to +5V.
4)
This pin is protected by a resettable PolySwitch fuse.
5)
This pin is not connected.
6)
This pin is connected only in the rear I/O configuration.
7)
This pin is pulled up with 10kΩ to +3.3V.
8)
Pin positions printed blue: Rear I/O options.
1
25
J1 2
m
m H
ard
M
etric Connector
© EKF 250.0525.10.01 ekf.com
© EKF 250.0522.10.01 ekf.com
1
22
J2 2mm Metric Connector
aabbccddeef
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Appendix
Mechanical Drawings
The following drawing shows the positions of mounting holes and expansion connectors on the
CCM-BOOGIE.
Expansion Module
PCIe
26.5
21.5
57.50
64.07
94.10
94.50
100.00
5.50
7.00
93.50
113.40
140.07
160.00
PCIe
J-PCIE
J-SDVO
J-EXP
J-HSE
CCM-BOOGIE
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2 Duo 3U CompactPCI® CPU Board
© EKF -75- ekf.com
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2 Duo 3U CompactPCI® CPU Board
© EKF -76- ekf.com
Small Industrial Systems
Small Industrial Systems
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2 Duo 3U CompactPCI® CPU Board
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Rugged Industrial Systems
Rugged Industrial Systems
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2 Duo 3U CompactPCI® CPU Board
Industrial Computers Made in Germany
boards. systems. solutions.
EKF Elektronik GmbH
Philipp-Reis-Str. 4
59065 Hamm
Germany
Phone +49 (0)2381/6890-0
Fax +49 (0)2381/6890-90
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E-Mail sales@ekf.com
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