GE Fanuc CR11, CP11, CT11 Reference Manual

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GE Fanuc

Embedded Systems

Reference Manual

CR11

Intel® Core™2 Duo / Intel® Core™ Duo 6U CPCI SBC

First Edition

Publication No. 123456789

transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise without the prior written permission of GE Fanuc Embedded Systems Inc.

This document contains Confidential/Proprietary Information belonging to GE Fanuc Embedded Systems Inc.

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NOTE

The acronym GEFIP is used in this manual to represent both

GE Fanuc Intelligent Platforms, Inc.

and it’s subsidiary

GE Fanuc Intelligent Platforms GmbH & Co. KG.

CR11, CP11, CT11 Hardware User’s Manual

This manual applies to the CR11, CP11, and CT11 6U CompactPCI® Single Board Computer hardware version

1.0 and above, until superseded.

Document history

Edition Date By Chapter Comments

1.0 2008-01-28 PS All First released revision

by SBS Technologies Germany

HHS All Minor cosmetic improvements

HHS Chapter 7 Add info about Freescale (ex Motorola)

HHS Chapter 2 Insert additional accessory option

MF Title Page Footer deleted

HHS All Adjust page breaks

Page 2 Inserted new document history table

HHS

Chapter 8, page 71

BIOS ROM

HHS TOC Correct after crash

PS Specification Operating temperature diagram updated

HHS All Cosmetic changes; add Appendix info in Welcome chap.

Change to GEFIP company name; insert Fig. 8 front panels

HHS All

MF Title Page Product picture updated

HHS All Add rear cover; spell-checking

HHS Chapter 8

Change text and diagrams of ‘onboard Lithium Battery’ section

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Legal Information

Legal Disclaimers

The information in this manual is proprietary to and is the confidential information of GE Fanuc Intelligent Platforms, Inc. and may not be reproduced in whole or in part, for any purpose, in any form or by any means, electronic, mechanical, recording, or otherwise, without written consent of GE Fanuc Intelligent Platforms, Inc. Use, disclosure, and reproduction is permitted only under the terms of a GE Fanuc Intelligent Platforms license agreement or explicit written permission of GE Fanuc Intelligent Platforms. You are not authorized to use this document or its contents until you have read and agreed to the applicable license agreement. Receipt of this publication is considered acceptance of these conditions.

All information contained in this document has been carefully checked and is believed to be entirely reliable and consistent with the product that it describes. However, no responsibility is assumed for inaccuracies. GE Fanuc Intelligent Platforms assumes no liability due to the application or use of any product or circuit described herein; no liability is accepted concerning the use of GE Fanuc Intelligent Platforms products in life support systems. GE Fanuc Intelligent Platforms reserves the right to make changes to any product and product documentation in an effort to improve performance, reliability, or design.

THIS DOCUMENT AND ITS CONTENTS ARE PROVIDED AS IS, WITH NO WARRANTIES OF ANY KIND, WHETHER EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF DESIGN, MERCHANTABILITY, AND FITNESS FOR A PARTICULAR PURPOSE, OR ARISING FROM ANY COURSE OF DEALING, USAGE, OR TRADE PRACTICE.

Changes or modifications to this unit, not expressly approved by GE Fanuc Intelligent Platforms, could void the user’s authority to operate the equipment.

All computer code and software contained in this document is licensed to be used only in connection with a GE Fanuc Intelligent Platforms hardware product. Even if this code or software is merged with any other code or software program, it remains subject to the terms and conditions of this license. If you copy, or merge, this code or software, you must reproduce and include all GE Fanuc Intelligent Platforms copyright notices and any other proprietary rights notices.

The content of this manual if furnished for informational use only and is subject to change without notice. Reverse engineering of any GE Fanuc Intelligent Platforms product is strictly prohibited.

In no event will GE Fanuc Intelligent Platforms be liable for any lost revenue or profits or other special, indirect, incidental and consequential damage, even if GE Fanuc Intelligent Platforms has been advised of the possibility of such damages, as a result of the usage of this document and the software that this document describes. The entire liability of GE Fanuc Intelligent Platforms shall be limited to the amount paid by you for this document and its contents.

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GE Fanuc Intelligent Platforms shall have no liability with respect to the infringement of copyrights, trade secrets, or any patents by this document of any part thereof. Please see the applicable software license agreement for full disclaimer or warranties and limitations of liability.

This disclaimer of warranty extends to GE Fanuc Intelligent Platforms’ licensees, to licensees transfers, and to licensees customers or users and is in lieu of all warranties expressed, implied, or statutory, included implied warranties of scalability or fitness for a particular purpose.

GE Fanuc Intelligent Platforms and the GE Fanuc Intelligent Platforms logo are trademarks of GE Fanuc Intelligent Platforms, Inc. Other brand names and product names contained herein may be claimed as the property of others.

GE Fanuc Intelligent Platforms, Inc., 2500 Austin Drive, Charlottesville, VA 22911, U.S.A.

Regulatory compliance

Products sold or transferred between companies or operated on company premises (factory floor, laboratory) do not need CE, FCC or equivalent certification. Boards or subsystems which cannot provide a useful function on their own do not need certification.

Certification can only be granted to complete and operational systems. There are authorized testing agencies, regulatory organizations and laboratories who will issue certificates of compliance after system testing.

GE Fanuc Intelligent Platforms designs and tests all their products for EMI/EMC conformance. Where GE Fanuc Intelligent Platforms supplies a complete/functional system for use by end users a certificate will be cited in the manuals/documents which are provided with the products.

Products manufactured by GE Fanuc Intelligent Platforms should normally be suitable for use in properly designed and produced customer equipment (system boxes or operational systems) without any major redesign or additional filtering. However, the systems might not conform to specific regulations once assembled and used. The system integrator or installer must test for compliance as required in his country or by the intended application and certify this to the end user.

ESD/EMI issues

ESD (Electro-Static Discharge) and EMI (Electro-Magnetic Interference) issues may show up in complete and operational systems. There are many ways to avoid problems with these issues.

Any operational system with cables for I/O signals, connectivity or peripheral devices provides an entry point for ESD and EMI. If GE Fanuc Intelligent Platforms does not manufacture the complete system, including enclosure and cables, it is the responsibility of the system integrator and end user to protect their system against potential problems. Filtering, optical isolation, ESD gaskets and other measures might be required at the physical point of entry

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(enclosure wall of box or rack). For example it is state-of-the-art that protection can not be done at the internal connector of an RTM if a cable is attached and routed outside the enclosure. It has to be done at the physical entry point as specified above.

Products manufactured by GE Fanuc Intelligent Platforms should normally be suitable for use in properly designed and produced customer equipment (system boxes or operational systems) without any major redesign. However, the systems might be subject to problems and issues once assembled, cabled and used. The end user, system integrator or installer must test for possible problems and in some cases show compliance to local regulations as required in his country or by the intended application.

Waste Disposal

The mark or symbol on any electrical or electronic product shows that this product may not be disposed off in a trash bin. Such goods have to be returned to the original vendor or to a properly authorized collection point.

Electric waste disposal symbol with black bar as explained below

The black bar underneath the waste bin symbol shows that the product was placed on the market after 13 August 2005. Alternatively the date of ‘placed on the market’ is shown in place of the bar symbol.

CE conformance declaration

CE certification is required in EU countries for equipment which is used or operated by the end user. Products sold or transferred between companies or operated on company premises (factory floor, laboratory) do not need CE certification.

CE certification can only be granted to complete and operational systems. Boards or subsystems which cannot provide a useful function on their own do not need CE certification.

GE Fanuc Intelligent Platforms designs and tests all their products for EMI/EMC conformance. Products manufactured by GE Fanuc Intelligent Platforms should normally be suitable for use in properly designed and

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produced customer equipment (system boxes or operational systems) without any major redesign or additional filtering. The system integrator or installer must, in any case, test for CE compliance and certify this to the end user.

Where GE Fanuc Intelligent Platforms supplies a complete/functional system for use by end users in EU countries a CE certificate will be cited in the manuals/documents which are provided with the products. The CE (and year of certification) symbol is shown on the equipment, typically on the type or S/N label or close to the power cable entry.

GE Fanuc Intelligent Platforms have tested their boards using their own card cages (chassis). Test results of these tests are available upon request.

Corporate headquarters

GE Fanuc Intelligent Platforms, Inc.

2500 Austin Drive

Charlottesville, VA 22911

U.S.A.

Phone: +1-800 322 3616

Fax: +1-

Email: sales.embeddedsystems@gefanuc.com

Regional headquarters

US EU

Americas & Pacific Rim (Japan, Korea, China, Philippines, AUS, NZ)

Europe, Russia, Near East, India, Africa

GE Fanuc Intelligent Platforms, Inc.

GE Fanuc Intelligent Platforms GmbH &

Co. KG 2500 Austin Drive Memminger Str. 14 Charlottesville, VA 22911 86159 Augsburg U.S.A. Germany Phone: +1-800 322 3616 Phone: +49-821-5034-0 Fax: +1- Fax: +49-821-5034-119 Email: sales.embeddedsystems@ gefanuc.com

E-Mail: aug-sales@gefanuc.com

GE Fanuc Intelligent Platforms on the Web:

http://www.gefanuc.com

For contact and other information (service, warranty, support etc.) see address list in chapter: ‘Support, Service’.

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. Welcome

The CR11, CP11, CT11 CompactPCI Single Board Computer is a fully IBMAT compatible stand-alone PC equipped with numerous functions and add-on features on a minimized board size. This technical manual is designed to provide information regarding the general use and application of the CR11, CP11, CT11 CompactPCI Single Board Computer, as well as detail the hardware design. Software methods and programming information are also provided.

Chapter 1 gives a brief overview of the functions, features and devices of the CR11, CP11 and CT11. Chapter 2 and 3 illustrate unpacking and installation procedures. Chapter 4 describes how to get started Chapter 5 describes all onboard and panel interfaces with pin assignments. Chapter 6 contains notes on system resources. Chapter 7 lists details of the function blocks. Chapter 8 describes electrical and environmental specifications. Appendix A is about the CTM17 Rear Transmission Module Appendix B describes the mezzanine card Appendix C describes the Cx9 to Cx11 compatibility Appendix D lists the ‘Support, Service And Warranty’ conditions

A number of expansion and add-on products are available for the CR11, CP11 and CT11. The CTM17 transition module and the PMC module are described in appendices to this manual. Please observe all safety instructions when handling GE Fanuc Intelligent Platforms products as outlined in the unpacking and installation chapters.

The following documents also cover items relevant to the CR11, CP11 and CT11 CompactPCI Single Board Computer. All documents are included as files on the Technical Product Information CD-ROM.

• CR11, CT11, CP11, VR11, VP11 User’s Manual for AMIBIOS8 Setup

• CR11, CT11, CP11, VR11, VP11 Board Specific Hardware Programmer’s

Manual

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• AMIBIOS8 Check Point and Beep Code List

• AMIBIOS8 Error Messages

• Intelligent Platform Management Interface for CT11 User’s Manual

Typographic Conventions

This manual uses the following notation conventions:

• Italics (sometimes additional in blue color) emphasize words in text or

documentation or chapter titles or web addresses if underlined.

• Hexadecimal values (base 16) are represented as digits followed by “h”,

for example: 0Ch.

• Hexadecimal values (base 16) are represented as digits preceded by “H”,

for example: H0C.

• Hexadecimal values (base 16) are represented as digits preceded by “$”,

for example: $0C.

• Binary values (base 2) are represented as digits followed by “b”, for

example 01b

• The use of a “#” (hash) suffix to a signal name indicates an active low

signal. The signal is either true when it is at logic zero level (voltage close to 0 V) or the signal initiates actions on a high-to-low transition.

• The use of a “\” (backslash) prefix to a signal name indicates an active low

signal. The signal is either true when it is at logic zero level (voltage close to 0 V) or the signal initiates actions on a high-to-low transition.

• Text in Courier font indicates a command entry or output from a GE Fanuc

Intelligent Platforms embedded PC product using the built-in character set.

• Notes, warning symbols and cautions call attention to essential

information.

Product Properties

Certification

The product or products described in this technical manual cannot be operated by themselves. They are components for integration into operational systems or add-ons to such systems. The products have been designed to meet relevant regulatory standards like FCC and CE. As mandated by these standards conformance to these standards can only be certified for complete operational systems. This has to be done by the end-user or by the systems integrator in their operational systems. GE Fanuc Intelligent Platforms have tested some products in their own systems. Upon request information is available which products have been tested and about the specific environment under which GE Fanuc Intelligent Platforms has tested these components.

Altitude

Altitude, air pressure and ambient temperature influence the thermal operation of the components described in this manual. They have been developed and tested at about 500 m (1650 ft.) above sea level at a typical ambient temperature of 20 °C (68 °F). Because of only marginal variations within a limited range of altitudes these products operate as specified within altitudes from sea level to 1000 m (3300 ft.). GE Fanuc Intelligent Platforms can assist

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the user of these components in planning operation outside this altitude range upon request.

Options

This manual describes the basic product plus all options. Your product may not have all options implemented. Please verify with your purchase contract which options are implemented. Descriptions of options which are not implemented obviously do not apply to your product.

Support, Service and Warranty

The manufacturer grants the original purchaser of GE Fanuc Intelligent Platforms products a warranty of 24 months from the date of delivery. For details regarding this warranty refer to Terms & Conditions of the initial sale.

Please see chapter ‘Support, Service, and Warranty Information’ for further details on repairs and product support.

For support on the web and product information, visit our website at

http://www.gefanucembedded.com

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. Contents

Document history 2

Legal Information 3

Legal Disclaimers 3

Regulatory compliance 4

ESD/EMI issues 4

Waste Disposal 5

CE conformance declaration 5

Corporate headquarters 6

. WELCOME 7

Typographic Conventions 8 Product Properties 8

Certification 8

Altitude 8

Options 9

Support, Service and Warranty 9

. CONTENTS 11

List of Figures 17 List of Tables 18

CHAPTER 1 INTRODUCTION 19

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Board Design 20

Design Features 22

CHAPTER 2 UNPACKING AND INSPECTION 25

Delivery Volume 25 Available Accessories 25 ESD 26 Warning 26 Initial Inspection 27 Unpacking 27 Handling 28

CHAPTER 3 INSTALLATION 31

Installation preparation 31

General Advisories 31

Advice on CompactPCI products 32

Required items 32

Advice on Batteries 33

Installation of a plug-in board 33 Installation of the Rear Transition Module 33 Initial Power-On Operation 34

Entering the BIOS SETUP 34

CHAPTER 4 GETTING STARTED 37

Power Supply 37 Status indicator, Postcode and Beeps 37 Booting 38 Setup 39 Hot Swap on Cx11 39 Unexpected Resets 40

CHAPTER 5 INTERFACES 41

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Front Panel Interfaces 42 Cx11 Connectors 42

CPCI connector reference 43

CompactPCI bus Connector J7001 and J7002 44

I/O Connector J7003, J7004 and J7005 45

IDE Connector P1800 46

Gigabit Ethernet Interface U5600 and U5650 47

Fast Ethernet Interface U5102 48

Serial Port COM1 P2201 50

VGA Interface P4200 51

USB Interfaces P1680, P1681 52

PMC1 Connectors P6201, P6202, and P6203 53

PMC2 Connectors P7201, P7202 54

PMC-I/O Connector P6204 and P7204 55

CHAPTER 6 RESOURCES 57

Memory Map 57 Register Set 57

Standard Register Set 58

Interrupts 59 APIC Controller 59

CHAPTER 7 FUNCTION BLOCKS 61

Processor 61 Memory Controller 61 DMA Controller 61 Interrupt Controller 62 Timer 62 Real Time Clock 63 EIDE and SATA Interfaces 63 USB Interface 63 Serial Interface 64

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Graphics Controller 64

Software Installation 64

PMC Interface 64 IPMI (CT11) 64

IPMB 64

Private I2C 65

Software Installation 65

Ethernet Interface 65

Software Installation 65

Additional devices 66

Hot Swap 66

SMBus devices 66

SMBus external (IPMB) 67

Temperature Sensor 67

Serial EEPROM 67

Power Management Event 67

INTP, INTS 67

ENUM# 67

Geographic Addressing 68

GPIO (0...7) 68

Watchdog 68

Programmable Timer 68

LEDs 68

Reset Button 69

Speaker 69

CHAPTER 8 SPECIFICATIONS 71

Power Consumption 71 Onboard Lithium Battery 73 Environment Conditions 76 Electrical Characteristics 77

Supply voltage range 78

GPIO 0...7 78

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Electrical clearance 79

Isolation 79

Placement Plan Component Side Cx11 V1 80 Placement Plan Solder Side Cx11 V1 81

APPENDIX A TRANSITION MODULE CTM17 83

IDE Connector P1800 85

SATA Connectors P1600, P1601 and P1602 86

Audio Connectors P2903, P2900, P2901, P2904, P2905 87

Ethernet Interface 10/100/1000BaseT P5000 and P5500 88

Serial Interfaces COM1 P2200 and COM2 P2201/P2202 90

Graphics interfaces 91

DVI-I connector P4000 91

VGA2 Interface P4200 93

USB connector P1680, P1681 93

Miscellaneous connector P2001 94

PMC I/O connectors P7101, P7102 94

GPIO connector P2000 94

Placement Plan 96

APPENDIX B PCI MEZZANINE CARD (PMC) 97

Electrical characteristics 97

APPENDIX C CX11 AND CX9 COMPATIBILITY 99

Basic compatibility: 99

Front I/O: 99

Rear I/O 100

APPENDIX D SUPPORT, SERVICE AND WARRANTY 101

Geographical Regions: 101 Technical Support 101 Support on the Web 102 Warranty 102 Repairs 102

Warranty Repairs 102

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Non-Warranty Repairs 103

Procedure 103

Obtaining an RMA Number 104

Shipping the Product 104

Error Report Form 104

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List of Figures

............................................................................................................19 FIGURE 1: SAMPLE PICTURE OF CX11 BOARD

.........................................................................................................21 FIGURE 2: LOGICAL DIAGRAM OF CX11 BOARD

...................................................................................................................................28 FIGURE 3: BOARD PACKAGING

....................................................................................................................28 FIGURE 4: HANDLING THE CX11 BOARD

..................................................................................................33 FIGURE 5: 6U BOARD INSERTION INTO SYSTEM BOX

.....................................................................................................41 FIGURE 6: LOCATION OF COMPONENTS ON BOARD

.......................................................................................................................42 FIGURE 7: SINGLE SLOT FRONT PANEL

....................................................................................................42 FIGURE 8: DUAL AND SINGLE SLOT FRONT PANELS

......................................................................................................................46 FIGURE 9: IDE CONNECTOR LOCATION

...........................................................................................47 FIGURE 10: GIGABIT ETHERNET CONNECTOR LOCATION

...............................................................................................48 FIGURE 11: GIGABIT ETHERNET CONNECTOR LAYOUT

.................................................................................................49 FIGURE 12: FAST ETHERNET CONNECTOR LOCATION

....................................................................................................49 FIGURE 13: FAST ETHERNET CONNECTOR LAYOUT

...................................................................................................................................50 FIGURE 14: COM 1 LOCATION

..................................................................................................................51 FIGURE 15: VGA CONNECTOR LOCATION

...................................................................................................................52 FIGURE 16: USB CONNECTOR LOCATION

......................................................................................................................52 FIGURE 17: USB CONNECTOR LAYOUT

............................................................................................73 FIGURE 18: BATTERY CURRENT VERSUS TEMPERATURE

............................................................................................................74 FIGURE 19: BATTERY CURRENT VERSUS TIME

...................................................................................................................77 FIGURE 20: TEMPERATURE VS. AIRSPEED

........................................................................................80 FIGURE 21: CX11 V1 COMPONENT SIDE PLACEMENT PLAN

...............................................................................................81 FIGURE 22: CX11 V1 SOLDER SIDE PLACEMENT PLAN

............................................................................................................84 FIGURE 23: CTM17 COMPONENT LOCATIONS

....................................................................................................................85 FIGURE 24: IDE CONNECTOR LOCATION

...............................................................................................................87 FIGURE 25: SATA CONNECTOR LOCATIONS

..............................................................................................................88 FIGURE 26: AUDIO CONNECTOR LOCATIONS

................................................................................................89 FIGURE 27: CTM17 ETHERNET CONNECTOR LAYOUT

........................................................................................................89 FIGURE 28: ETHERNET CONNECTOR LOCATIONS

.............................................................................................................90 FIGURE 29: SERIAL CONNECTOR LOCATIONS

.........................................................................................................91 FIGURE 30: GRAPHICS CONNECTOR LOCATIONS

.......................................................................................................................92 FIGURE 31: DVI CONNECTOR LAYOUT

...................................................................................................................93 FIGURE 32: USB CONNECTOR LOCATION

.......................................................................................................93 FIGURE 33: USB CONNECTOR PIN ASSIGNMENTS

......................................................................................................................96 FIGURE 34: PLACEMENT PLAN CTM17

................................................................................................................98 FIGURE 35: MOUNT PMC BOARD TO CX11

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List of Tables

....................................................................................................................................24 TABLE 1: STYLES AVAILABLE

....................................................................................................................................25 TABLE 2: DELIVERY VOLUME

.....................................................................................................................26 TABLE 3: LIST OF ACCESSORY OPTIONS

.............................................................................................................................................35 TABLE 4: BIOS ID LINE

..............................................................................................................................................39 TABLE 5: BOOT TIMING

...............................................................................................................................43 TABLE 6: SIGNAL NAME GROUPS

........................................................................................................44 TABLE 7: CPCI CONNECTORS J7001 AND J7002

................................................................................................45 TABLE 8: I/O CONNECTORS J7003, J7004 AND J7005

........................................................................................................................................47 TABLE 9: IDE CONNECTOR

.................................................................................48 TABLE 10: GIGABIT ETHERNET CONNECTOR PIN ASSIGNMENTS

.....................................................................................................48 TABLE 11: ETHERNET LED DISPLAY DEFINITIONS

......................................................................................49 TABLE 12: FAST ETHERNET CONNECTOR PIN ASSIGNMENTS

............................................................................................50 TABLE 13: FAST ETHERNET LED DISPLAY DEFINITIONS

........................................................................................................................51 TABLE 14: COM 1 PIN ASSIGNMENTS

.......................................................................................................52 TABLE 15: VGA CONNECTOR PIN ASSIGNMENTS

........................................................................................................53 TABLE 16: USB CONNECTOR PIN ASSIGNMENTS

......................................................................................................54 TABLE 17: PMC1 CONNECTOR PIN ASSIGNMENTS

......................................................................................................55 TABLE 18: PMC2 CONNECTOR PIN ASSIGNMENTS

..................................................................................................................57 TABLE 19: MEMORY AREA ASSIGNMENTS

.........................................................................................................................58 TABLE 20: STANDARD REGISTER SET

........................................................................................................................59 TABLE 21: INTERRUPT ASSIGNMENTS

....................................................................................................................62 TABLE 22: INTERVAL TIMER FUNCTIONS

.......................................................................................................65 TABLE 23: IPMB BACKPLANE PIN ASSIGNMENTS

.............................................................................................................65 TABLE 24: SUPPORTED OPERATING SYSTEMS

.......................................................................................................................................66 TABLE 25: SMBUS DEVICES

.................................................................................................................67 TABLE 26: POWER MANAGEMENT EVENTS

..........................................................................................................................69 TABLE 27: BIOS POWER-UP STATUS

..................................................................................................72 TABLE 28: POWER CONSUMPTION CPU DEPENDENT

..............................................................................................72 TABLE 29: POWER CONSUMPTION DRAM DEPENDENT

.....................................................................................................................76 TABLE 30: ENVIRONMENT CONDITIONS

..........................................................................................................76 TABLE 31: SHOCK & VIBRATION PARAMETERS

........................................................................................................................76 TABLE 32: MAXIMUM HEIGHT USAGE

...................................................................................................................78 TABLE 33: POWER SUPPLY PARAMETERS

.........................................................................................................................78 TABLE 34: SUPPLY VOLTAGE RANGE

............................................................................................................................79 TABLE 35: GPIO INPUT VOLTAGES

.........................................................................................................................79 TABLE 36: GPIO OUTPUT VOLTAGES

........................................................................................................................86 TABLE 37: CTM 12 IDE CONNECTOR

.....................................................................................................88 TABLE 38: AUDIO CONNECTOR PIN ASSIGNMENTS

..................................................................................89 TABLE 39: CTM17 ETHERNET CONNECTOR PIN ASSIGNMENTS

.....................................................................................................90 TABLE 40: ETHERNET LED DISPLAY DEFINITIONS

.........................................................................................91 TABLE 41: COM1/COM2 CONNECTOR PIN ASSIGNMENTS

.............................................................................................92 TABLE 42: DVI CONNECTOR DIGITAL PIN ASSIGNMENT

...........................................................................................92 TABLE 43: DVI CONNECTOR ANALOG PIN ASSIGNMENTS

.........................................................................................................93 TABLE 44: VGA CONNECTOR PIN ASSIGNMENT

.......................................................................................94 TABLE 45: MISCELLANEOUS CONNECTOR PIN ASSIGNMENT

.........................................................................94 TABLE 46: PMC I/O 64-PIN HEADER CONNECTOR PIN ASSIGNMENTS

.........................................................................................................94 TABLE 47: GPIO CONNECTOR PIN ASSIGNMENT

................................................................................................................97 TABLE 48: ELECTRICAL CHARACTERISTICS

.......................................................................................100 TABLE 49: REAR I/O PIN ASSIGNMENTS FOR CX9 & CX11

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CHAPTER 1 Introduction

Chapter Scope

This chapter describes features, capabilities and compatibility of the CR11, CP11 and CT11 CompactPCI Single Board Computer. All three boards are based on the same PCB design. These three products will be referred to in this manual as the Cx11 family. Any further specification in this document referring to Cx11 can be applied to CR11, CP11 and CT11 unless otherwise noted.

Figure 1: Sample picture of Cx11 board

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Board Design

The Cx11 is a fully IBM-AT compatible stand-alone PC. It is equipped with many functions a conventional Personal Computer can only offer with several add-on cards. Extension boards can be connected via the CPCI (CompactPCI) interface. The minimized board size and the large number of interfaces and functions allow the Cx11 to be used in many applications. See the following block diagram for the board design.

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Figure 2: Logical diagram of Cx11 board

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Design Features

The Cx11 CompactPCI Single Board Computer features:

Microprocessor Intel® Core™ Duo and Core™ 2 Duo, Intel® Celeron® M processor

Chipset Intel® E7520 with 6300ESB and a 6700 PXH PCI bridge

CMOS RAM 114 byte non-volatile RAM MC146818 compatible RTC with onboard Lithium battery

EEPROM (Serial) 512 Bytes or 64 kBytes for user information

DRAM 512 MB to 4 GB DDR2 400 MHz 128 bit wide with ECC

Flash BIOS Easy updating, in-system programmable AMIBIOS Intel Ethernet BOOT module

Keyboard/Mouse Via USB port

LCD/VGA ATI M22 graphics controller with 32 MB DDR2 memory, dual head display with maximum resolution 1280 x 1024 analog and DVI

USB Two front and two rear USB 2.0 ports

Watchdog Watchdog implemented in 6300ESB chipset

High Resolution Timer User programmable timer, allows ‘Real Time Functions’ implemented in 6300ESB chipset

Ethernet Two 10/100/1000BaseT high speed Ethernet channels either front or rear (PICMG 2.16) with Intel 82571EB Ethernet controller One front 10/100BaseT Intel 82551 fast Ethernet controller

Hard/Flash Disk Onboard mountable 2.5” IDE hard disk or Flash Drive

Floppy Via USB port

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EIDE/ATAPI Two SATA 150 MB/s channels are implemented on the rear connector. UDMA 100 EIDE/ATAPI interface within 6300ESB with two IDE channels (primary IDE onboard and secondary IDE off-board). Transfer rate with up to 100 MB/s, for two external devices and one onboard 2.5” hard/flash disk.

Serial I/O Two asynchronous 16550 compatible channels with 16 byte FIFO, Transfer rates up to 115.2 KBaud user selectable RS232/422/485

General Purpose- I/O 8 bit universal in out with +3.3 V signaling and +5 V tolerance.

PMC slots One 64 Bit 66/133 MHz (+3.3 V IO voltage signaling) and one 32 Bit/33 MHz (+5 V IO voltage signaling) PCI mezzanine connector support standard PMC with front and rear I/O. The I/O signals are available at the rear connectors, The high speed PMC1 will be available as an XMC slot as soon as its specification is finalized.

CPCI System slot Up to 7 peripheral slots 64 Bit CPCI/33 MHz with PLX PCI6466 bridge (Up to 4 peripheral slots 64 Bit/66 MHz). Standard backplanes can be used. Onboard Pullup resistors are optimized for the +3.3 V I/O voltage, but +5 V I/O can also be used for 33 MHz.

CPCI I/O Slot Cx11 works as peripheral board 64 Bit or 32 Bit with 66 MHz or 33 MHz and Hot Swap functionality.

IPMI (CT11) Hitachi controller for support of Intelligent Platform Management Interface.

Temperature Sensors Measure the temperatures of the CPU-die and one onboard location. The sensors are software readable in 1 °C increments from -55 °C to +125 °C.

Front panel I/O 2x Ethernet, VGA, PMC front I/O, COM1 (RJ45), 2x USB, Reset, 2x LED (blue: Hot Swap; bicolor: user definable) depending on the board configuration.

Back panel I/O DVI, 2x VGA, 2x SATA, IDE (Master/Slave), COM1-2, 2x USB, 2x PMCI/O, speaker, reset, ext. Battery, ICMB, IPMB, 8x GPIO, 2x Ethernet. Transition modules with PC compatible connectors are available.

Approval Designed to meet standard UL1950, CE class A, FCC-A

H110 Backplanes The CT11 can be optionally ordered without connector J7004 (=CPCI J4) assembled for backplanes providing H110 functionality. As a consequence some rear I/O will not be available. Please check in Chapter 4 in the Interfaces section for more details.

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The list of styles available is shown below.

Table 1: Styles available

CR11 1 2 3 4 6 8

Front panel X X X X X

Extended temperature X X X X

Parts soldered X X

Middle stiffener bar X X

Wedge locks X

Conformal coating X X X X

Conduction cooling X

Onboard battery X X X X

Onboard speaker X X X X X

CT11 and CP11 can be ordered in commercial or extended temperature version (Styles 1 or 3) only.

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CHAPTER 2 Unpacking and Inspection

Chapter Scope

This chapter covers the suggested inspection and preparation considerations and background information necessary prior to using the Cx11. Unpacking, initial inspection, and first-time operation of the Cx11 are covered. Following the procedures given in the chapter is recommended, since they will verify proper operation after shipping and before the product is integrated into your system.

Delivery Volume

Please check that the delivered package contains the following items:

Table 2: Delivery volume

Qty. Item Purpose

CR11 or CP11 or CT11

1 CompactPCI Single Board Computer

Technical Product Information

1 CDROM

with driver software and manuals in Adobe Acrobat (PDF) format

The manual files are also available through the World Wide Web from our Web-Server at:

http://www.gefanuc.com

Available Accessories

The following table lists accessory options which are available for the Cx11:

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Table 3: List of accessory options

Item Purpose

CTM17 Transition module, 6U x 4HE/HP

VGA2DVI DVI to standard VGA converter

YLR015RS RJ45 to 9-pin Sub-D cable

Please contact the sales department or your sales representative for latest information on options and accessories.

Accessories are subject to change without notice.

ESD

Electrostatic Discharge Notice The discharge of static electricity, known as Electro Static Discharge or ESD, is a major cause of electronic component failure. The Cx11 has been packed in a static-safe bag which protects the board from ESD while the board is in the bag. Before removing the Cx11 or any other electronic product from its static-safe bag, be prepared to handle it in a static-safe environment.

You should wear a properly-functioning antistatic strap and ensure you are fully grounded. Any surface upon which you place the unprotected Cx11 should be static-safe, usually facilitated by the use of antistatic mats. From the time the board is removed from the antistatic bag until it is in the card cage and functioning properly, extreme care should be taken to avoid ‘zapping’ the board with ESD. You should be aware that you could ‘zap’ the board without you knowing it; a small discharge, imperceptible to the eye and touch, can often be enough to damage electronic components. Extra caution should be taken in cold and dry weather when static easily builds up.

Only after ensuring that both you and the surrounding area are protected from ESD, carefully remove the board or module from the shipping carton by grasping it by the front panel and the connectors. Place the board, in its antistatic bag, flat down on a suitable surface. You may then remove the board from the anti static bag by tearing the ESD warning labels.

Warning

This is a Class A product. In a domestic environment, this product may cause radio interference in which case the user may be required to take adequate measures.

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Notes:

Drain static electricity before you install or remove any parts. Installing or removing modules without observing this precaution could result in damage to this and/or other modules in your system.

Initial Inspection

After unpacking the Cx11, you should inspect it for visible damage that could have occurred during shipping or unpacking. If damage is observed (usually in the form of bent component leads or loose socketed components), contact GE Fanuc Intelligent Platforms for additional instructions. Depending on the

severity of the damage, it may need to be returned to the factory for repair. DO NOT apply power to the board if it has visible damage. Doing so may cause

further, possibly irreparable damage, as well as introduce a fire or shock hazard.

Since the Cx11 incorporates a number of socketed components, including the CPU, memory, etc., these should be inspected to make sure they are seated fully in their sockets.

Note

Please observe all safety procedures to avoid damaging system and protect operators and users.

Unpacking

Please adhere to the following:

• Please read this manual carefully before unpacking the module or fitting it

into your system. This will certainly save time and avoid trouble.

• Observe all precautions for electrostatic sensitive modules

• If the product contains batteries, please do not place the board on

conductive surfaces, antistatic plastic, or sponge, which can cause shocks and lead to battery or board trace damage.

• Please do not exceed the specified operational temperatures. Note that

batteries and storage devices might also have temperature restrictions.

• Keep all original packaging material for future storage or warranty

shipments of the board.

Although the Cx11 is carefully packaged to protect it against the rigors of shipping, it is still possible that shipping damages can occur. Careful inspection of the shipping carton should reveal some information about how the package was handled by the shipping service. If evidence of damage or rough handling is found, you should notify the shipping service and GE Fanuc Intelligent Platforms as soon as possible.

Retain all packing material in case of future need.

Note

Before installing or removing any board, please ensure that the system power and external supplies have been turned off.

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Figure 3: Board packaging

Handling

Proper handling of the Cx11 is critical to ensure proper operation and long-term reliability. When unpacking the board, and whenever handling it thereafter, be sure to hold the board by the front panel or the card ejectors as shown in the drawing on the left. Do not hold the board by the circuit card edges, the heat sink, or the connectors.

Figure 4: Handling the Cx11 board

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CHAPTER 3 Installation

Chapter Scope

This chapter covers the installation of the Cx11 CompactPCI Single Board Computer in a CompactPCI backplane and initial power-on operations.

Installation preparation

Use the following steps to install your GE Fanuc Intelligent Platforms hardware.

• Before installing or removing any board, please ensure that the system

power and external supplies have been turned off.

• Check that the jumpers and mezzanines are correctly configured for your

application.

• Mount the board/mezzanine/transition module very carefully. See also

additional advisories for VMEbus and CompactPCI products below.

• Connect all IO cables.

• Once you are certain that all modules are correctly fitted into the system

and all connections have been made properly, restore the power.

General Advisories

Before installing or removing any board, please ensure that the system power and external supplies have been turned off.

Check that jumpers and mezzanines are correctly configured for your application. Mount the board, mezzanine, or transition module very carefully. See also sections on additional advisories below.

Do not restore power until you are sure that all modules are fitted correctly and all connections have been made properly.

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Advice on CompactPCI products

Mount the CPU board carefully on the CPCI bus slot. Note that on some boards connectors are used for I/O purposes which must not be inserted into a CPCI bus backplane. A transition module must be used instead.

Because the board is available in several options the description in this chapter is related to the standard configuration. See the following text for standard and optional configurations and their influence on initial operation.

Note:

Make sure that the card ejectors are closed and the Hot Swap LED (blue) is OFF.

Required items

The following items are required to start the Cx11 in a standard configuration:

Backplane and Power Supply

You will need a standard CompactPCI backplane wired into a regulated power supply capable of providing stable low noise +5 V, + 3.3 V and +12 V sources. Make sure that the supply is capable of meeting the total power requirements of the Cx11. Please refer to chapter ‘Specifications’ on page

71 for details.

The Cx11 features Full Hot Swap capabilities according to the PCI Hot Plug specification PICMG 2.1. This allows orderly insertion and extraction of the board from the system host (backplane) without having to power down the system. Please note that this feature requires that Hot Swap functions are also available on the backplane. See chapter ‘Hot Swap’ on page

66 for details.

Initially, you may plug the Cx11 into your 6U system slot of your CPCI system. Optionally, when used as an intelligent peripheral board, the Cx11 can also be used in a non-system slot. In case that the Cx11 is used in a non-system slot you have to have an additional CPU board in the system slot for providing system clock, arbiter function and more.

Keyboard and Mouse

You should have a USB compatible keyboard for initial system operation. Depending on your application, this keyboard may be a standard full-travel keyboard, or one which utilizes membrane switches for harsh environments. The USB connectors are located on the front panel and are directly compatible with existing compliant keyboards. You can connect a USB mouse, too. You can put mouse and keyboard in whatever front or rear connector you want.

Video Monitor

Any VGA-compatible video monitor can be used initially for display output. The Cx11 offers front access to the video. Video can also be accessed via the J5 CPCI connector on the rear I/O side. In order to get access to these pins it is necessary to use a transition module.

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Advice on Batteries

There is a danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by GE Fanuc Intelligent Platforms.

Dispose of used batteries according to instructions of GE Fanuc Intelligent Platforms and applicable local regulations.

Installation of a plug-in board

Boards are installed in a CPCI chassis by carefully sliding them into the guide rails, inserting them all the way until the handles can be operated to seat and lock the board in place. Handles typically have a lock (snap lever) to unlock them when extracting a board. Older boards may have screws instead of handles to secure the board in place.

Figure 5: 6U board insertion into system box

Installation of the Rear Transition Module

The CTM17 is a 6U x 80 mm rear I/O module which has to be plugged into the Cx11 separated by the backplane. This transition module has a DVI-I connector. If necessary you need an external adaptor to be fully compatible with the VGA standard connector and pin outs. On the transition module you either can connect a DVI panel or a standard VGA Monitor, but not both at the same time.

Plug your video monitor into this connector. Make sure that your selected chassis supports this type of rear I/O transition module.

After making sure that you have installed the Cx11 properly into your CPCI backplane, apply power to your video monitor and then the CPCI supply. When the board is completely reset, the processor should begin executing initial BIOS-resident routines.

Note:

Make sure that the card ejectors are closed and the Hot Swap LED (blue) is OFF.

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Note:

If the Cx11 was ordered without video on board, you can use an external video CompactPCI card or a video PMC module. Consult the technical descriptions of these boards for required voltage and power consumption in the system.

Or use a terminal on COM1. Provide Port Settings – Bits, Data Bits, Parity and Stop Bit.

Initial Power-On Operation

After some seconds, the Cx11 system BIOS banner will display on the and the red LED on the front will get non-blinking green.

If you have seen all the messages to this point, you can be confident that the board is running properly and is ready to be installed and setup for your application.

Entering the BIOS SETUP

To enter SETUP during the initial power-on sequence press the DELETE key during the boot up sequence. Check the on-screen messages. This tells you when you can enter the BIOS by pressing the DELETE key. If this message does not appear on your monitor, just press the DELETE key when you hear short beeps indicating the keyboard was initialized. You may also press the DELETE key when the LED goes from blinking orange to blinking green.

Consult the 'AMI BIOS for CR11, CP11, CT11 User’s and Programmer’s Manual' for further information on how to change settings and configurations.

If the board does not perform as described above, some damage may have occurred in shipping or the board is not installed or setup properly. Contact GE Fanuc Intelligent Platforms support as described in chapter ‘Support, Service, and Warranty’ for further instructions.

If the BIOS setup is wrong in the CMOS RAM, then please press the ‘0/INS’key or the ‘INS’ key during boot up. This clears the CMOS settings and stops the video output at an early stage. There you can also see the BIOS ID line:

Example/coding of the ID line:

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Table 4: BIOS ID line

62 – 0102 – 004199 – 00101111 – 071595 - E7501 – VR11

Y2KC-0

year 2000 compliant

project ID

chip set

AMIBIOS core copyright date

BIOS features

supplier ID

major & minor BIOS revisions

processor, flash ROM size

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CHAPTER 4 Getting Started

Chapter Scope

This chapter gives some useful tips when using a board from the Cx11 family the first time. It might be also useful to read this chapter carefully, when problems came up in using the Cx11.

Power Supply

All boards of the Cx11 family require up to 70 Watts from the power supply. For exact values please check the actual datasheet, but for rough data a current of up to 7 A to 11 A at the 5 V rail and 10 A to 15 A at the 3.3 V rail must be taken into consideration. The +12 V must only supply a few mA and is not very critical. If there are harddisc or PMC modules attached to the Cx11, then their power consumption must also be calculated. Keep in mind, that standard power supplies often require minimum loads on every supply voltage for proper operation. It might be necessary to add a load to the +12 V to ensure correct voltage levels on 3.3 V and 5 V.

If you ever see the board not starting well or doing resets at random states, please check the voltage of the three supply voltages at the backplane. When measuring there, you can use a standard digital multimeter and you have to attach it to the backplane at positions where no high currents are flowing. So better use rear contacts of the bus connectors or unused power connectors to measure, because measuring the voltages at the used power connectors can result in wrong values, which are caused by the high current flowing.

The +12 V are less critical, but 5 V and 3.3 V should reach their nominal value when measuring with a multimeter. If the voltages are less than 5.0 V or 3.3 V, then short voltage drops while the CPU or memory gets into high activities may result in resetting the Cx11 board.

Status indicator, Postcode and Beeps

The Cx11 family has a triple color LED at the front panel for a quick status indicator usage. The possible colors are red, amber or green and the LED can blink or be on continuously.

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The CR11, CP11, CT11 additional have a blue Hot Swap LED as required according to the PICMG specification. This blue LED is also an indication for a reset condition.

While running its BIOS initialization all boards of the Cx11 family write postcodes (POST = Power-On Self Test) to port 80h at the PCI bus 0 (at PMC2). These accesses can be monitored with appropriate equipment or a PMC post card. For easier access the postcodes are sent also to the parallel port LPT1 data lines. When measuring their values or adding 8 LEDs with current limiting resistors to GND, you can follow the POST sequence of the BIOS. When the boot process stops at a certain point also the eight voltage levels can be measured with a multimeter.

• Some more debug support is integrated on the Cx11 family, which beeps

the postcode if the POST stops before the display is initialized. This POST beep support can be removed at a later development stage, if the required space within the onboard programmable logic is no longer available, so don’t rely on this. The beeps are long for a ‘1’ and short for a ‘0’. They start with the highest bit 7 and beep 8 represents the lowest bit 0. If the last postcode was a 16bit value then you will hear 16 beeps starting with the highest bit 15. Always after a nibble (4bits) there is a short break in the beep sequence. After some seconds the beep sequence is repeated for an easier recognition. If the beep code is not repeated, then this beeps are issued within the BIOS execution to show some other failures (i.e. fails in memory detection or if no VGA is detected). For more information please check the AMIBIOS8 Check Point and Beep Code List as well as the AMIBIOS8 Error Messages.

Booting

When switching-on the Cx11 following steps are done by hardware:

- On the Cx11 family, all voltages at the backplane are observed until they reach

a first trip point which is 2.5 V at the 5 V/3.3 V rails and 9.5 V at the +12 V rail. After this the onboard voltages are controlled raised up to the external supplied value

- The continuous red Status LED shows that all circuitry is in reset

- All onboard DC/DC converters are ramped up

- If all onboard supply voltages are at their correct values, the ‘power good’

status is acknowledged to all onboard devices and the red LED is switched off

- On the Cx11 family, the blue Hot Swap LED is switched off when the onboard

PCI reset is released. Especially when the battery is removed, this can take a few seconds to start the 32 kHz Oscillator. The PCI reset gets inactive after this period.

- After this the CPU starts reading the first instructions from BIOS. Very soon

the red LED is programmed to a red blinking state and the first postcode is issued

- If the CPU does not start correctly, the red LED keeps off until the hardware

watchdog will issue a further reset 1.6 seconds later. You can see this at the red LED, which is on again for a short moment (at the Cx11 family also the blue LED). This sequence continues until the CPU starts correctly.

For reference the complete BIOS boot sequence is shown with the current BIOS version. This version is a rather early one and hopefully some of the long

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periods will speed up. The times depend mainly on the memory size and they are measured with 1 GB and quick boot enabled. Some of the postcodes are 16 bit, but only the lower 8bits can be seen at the parallel port data lines. All postcodes are shown in hex.

Table 5: Boot timing

Time after releasing PCI reset

POSTCODE Status LED Comment

0.4 s 92 Red blinking

2 s 94 All memory is initialized

All USB devices, hubs are initialized *1

3 s D5 Amber blinking

7 s 202A Green blinking Video Bios is started *2

Try booting from mass storage

13 s 00 Green steady on

Exact timing may vary a lot in dependence of the number of USB devices/hubs and the DRAM size. *1 now is the right point to press DEL if you want to go to BIOS SETUP *2 CRT and/or panel are now initialized and show the startup screen.

Depending on the monitor/display type it may need some additional seconds until you can see something on the screen

Setup

When you want to enter the BIOS Setup, you have to press the keyboard ‘DEL’ key at the right moment. Especially when using a slow starting monitor it might be too late to wait for the CRT to show the message ‘Press DEL to enter Setup’. Better look for the LED and press ‘DEL’ as soon as the LED changes from amber to green blinking. When you are using add on cards with external BIOS, you can hit the DEL key while their BIOS runs (i.e. SCSI BIOS device scan).

When you miss the right moment to press the DEL key, please use the reset button on the front panel to restart the power up sequence or switch off the power supply for a few seconds and restart it. With the current BIOS pressing the Ctrl-Alt-Del key combination at this boot-moment will result in switching to the next bootable device and try to boot from this. This feature cannot be disabled within Setup.

Hot Swap on Cx11

The Cx11 family supports full Hot Swap according to CPCI specification 2.1. This includes all hardware functionality to detect other bus cards or devices to be plugged in or removed while the system is running under power. Also the Cx11 can be hot plugged to a running system or be removed from it.

The necessary software/driver and operating system handling is not done within the BIOS of the Cx11, because all the tasks to recognize new inserted boards, to re-enumerate the PCI memory space while other cards/transfers are still

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running, cannot be done within BIOS. These tasks have to be fully done from the used operating system. Currently GE Fanuc Intelligent Platforms have no drivers to support these functionalities.

The handling of the blue LED is also done within the necessary drivers. So do not expect the blue LED to go on and off according to the CPCI specification if no driver is loaded.

Unexpected Resets

Whenever the Cx11 unexpectedly issues a reset and starts booting again, you may want to know the reset source. For this reason a set of special registers is implemented onboard. Every reset source sets a special bit and can be read during the next boot-up. The register description can be found in the ‘Board Specific Hardware Programmer’s Manual’.

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CHAPTER 5 Interfaces

Chapter Scope

This chapter describes the interfaces of the Cx11 CompactPCI Single Board Computer located on the board and on the front panel. Each section on a particular interface includes a graphics illustration of the connector and a pin assignment table as well as notes on certain signal line characteristics, if necessary.

For interfaces of the transition module, please refer to the appropriate chapters found in the ‘Appendices’ to this manual.

Figure 6: Location of components on board

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Front Panel Interfaces

Refer to the next drawing for the location of interfaces on the front panel of the CR11 and CT11 single slot board (either with front I/O or with dual PMC):

Figure 7: Single slot front panel

This drawing indicates the location of interfaces on the front panel of the CP11 dual slot board:

Figure 8: Dual and single slot front panels

Cx11 Connectors

This chapter describes connector pin assignments on the Cx11. A pin assignment description for available transition module can be found in the corresponding appendix chapters.

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CPCI connector reference

The CPCI specification numbers the CPCI connectors from bottom to top J1, J2, J3, J4, and J5. The CPCI connectors on the Cx11 are J7001, J7002, J7003, J7004, and J7005 respectively.

Table 6: Signal name groups

Signal groups Determiner

Hard disk controller signals PHD…. and \PHD….

SATA interface signals SATA…

COM1, COM2 signals C1....., C2.....

VGA signals V1…, V2…

Universal Serial Bus USB…

DVI signals TX…, HOTPLG

LAN signals LPA…, LPB.., M1…, M2,,,

Audio interface AU…

SMB (I2C-Bus) SMB…

IPMI IPMI…, ICMB…

General purpose I/O GPIO…

JTAG debug port TDI, TDO, TMS, TCK

Misc. signals \SPEAKER

\RST_BUT

VBATIN

PMC IO Signals PMC...

NC: not connected

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CompactPCI bus Connector J7001 and J7002

This interface is used for connection to a standard CPCI backplane.

Table 7: CPCI connectors J7001 and J7002

J7002 A B C D E F 22 GA4 GA3 GA2 GA1 GA0 GND 21 CLK6 GND NC NC NC GND 20 CLK5 GND NC GND NC GND 19 GND GND SMB_SDA dSMB_SCL dSMB_ALRT# dGND 18 NC NC NC GND NC GND 17 NC GND \PRST \REQ6 \GNT6 GND 16 NC NC \DEG

GND NC GND

15 NC GND \FAL

\REQ5 \GNT5 GND 14 AD35 AD34 AD33 GND AD32 GND 13 AD38 GND VIO bAD37 AD36 GND 12 AD42 AD41 AD40 GND AD39 GND 11 AD45 GND VIO bAD44 AD43 GND 10 AD49 AD48 AD47 GND AD46 GND 9 AD52 GND VIO bAD51 AD50 GND 8 AD56 AD55 AD54 GND AD53 GND 7 AD59 GND VIO

AD58 AD57 GND 6 AD63 AD62 AD61 GND AD60 GND 5 C/\BE5 \64EN VIO

C/\BE4 PAR64 GND 4 VIO

NC C/\BE7 GND C/\BE6 GND 3 CLK4 GND \GNT3 \REQ4 \GNT4 GND 2 CLK2 CLK3 \SYSEN \GNT2 \REQ3 GND 1 CLK1 GND \REQ1 \GNT1 \REQ2 GND J7001 A B C D E F 25 +5V \REQ64 ENUM +3.3V +5V GND 24 AD01 +5V LVIO

a b

AD00 \ACK64 GND

23 +3.3V AD04 AD03 L+5V

AD02 GND

22 AD07 GND L+3.3V

AD06 AD05 GND 21 +3.3V AD09 AD08 M66EN C/\BE0 GND 20 AD12 GND VIO bAD11 AD10 GND 19 +3.3V AD15 AD14 GND AD13 GND 18 \SERR GND +3.3V PAR C/\BE1 GND 17 +3.3V IPMB_SCL IPMB_SDA GND \PERR GND 16 \DEVSEL GND VIO b\STOP \LOCK GND 15 +3.3V \FRAME \IRDY \BD_SEL \TRDY GND 12-14 KEY KEY KEY KEY KEY KEY 11 AD18 AD17 AD16 GND C/\BE2 GND 10 AD21 GND +3.3Vnc AD20 AD19 GND 9 C/\BE3 IDSEL AD23 GND AD22 GND 8 AD26 GND VIO bAD25 AD24 GND 7 AD30 AD29 AD28 GND AD27 GND 6 \REQ0 \PCI_PRES L+3.3V

CLK0 AD31 GND 5 NC NC \RST GND \GNT0 GND 4 IPMI_PWR \HEALTHY LVIO

NC NC GND 3 \INTA \INTB \INTC L+5V

\INTD GND 2 NC +5V NC NC NC GND 1 +5V -12V NC +12V +5V GND

On long backplane pins for early power supply

The VIO signals are not used by the Cx11. They are either 5 V or 3.3 V,

depending on backplane

These signals are not used on the Cx11

These SMBus signals are not supported by the IPMI controller on the CT11

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I/O Connector J7003, J7004 and J7005

The connector J7004 is not mounted on the CT11, if the H110-Bus is used on the backplane. For easy use a transition module is available from GE Fanuc Intelligent Platforms to connect the I/O-Connectors with standard connectors.

Table 8: I/O connectors J7003, J7004 and J7005

J7003 A B C D E F 19 GND GND GND GND GND GND 18 LPA_DA+ LPA_DA- GND LPA_DC+ LPA_DC- GND 17 LPA_DB+ LPA_DB- GND LPA_DD+ LPA_DD- GND 16 LPB_DA+ LPB_DA- GND LPB_DC+ LPB_DC- GND 15 LPB_DB+ LPB_DB- GND LPB_DD+ LPB_DD- GND 14 VCC3

VCC3

VCC

GND 13 PMC1IO_05 PMC1IO_04 PMC1IO_03 PMC1IO_02 PMC1IO_01 GND 12 PMC1IO_10 PMC1IO_09 PMC1IO_08 PMC1IO_07 PMC1IO_06 GND 11 PMC1IO_15 PMC1IO_14 PMC1IO_13 PMC1IO_12 PMC1IO_11 GND 10 PMC1IO_20 PMC1IO_19 PMC1IO_18 PMC1IO_17 PMC1IO_16 GND 9 PMC1IO_25 PMC1IO_24 PMC1IO_23 PMC1IO_22 PMC1IO_21 GND 8 PMC1IO_30 PMC1IO_29 PMC1IO_28 PMC1IO_27 PMC1IO_26 GND 7 PMC1IO_35 PMC1IO_34 PMC1IO_33 PMC1IO_32 PMC1IO_31 GND 6 PMC1IO_40 PMC1IO_39 PMC1IO_38 PMC1IO_37 PMC1IO_36 GND 5 PMC1IO_45 PMC1IO_44 PMC1IO_43 PMC1IO_42 PMC1IO_41 GND 4 PMC1IO_50 PMC1IO_49 PMC1IO_48 PMC1IO_47 PMC1IO_46 GND 3 PMC1IO_55 PMC1IO_54 PMC1IO_53 PMC1IO_52 PMC1IO_51 GND 2 PMC1IO_60 PMC1IO_59 PMC1IO_58 PMC1IO_57 PMC1IO_56 GND 1 VCC3

PMC1IO_64 PMC1IO_63 PMC1IO_62 PMC1IO_61 GND

J7004 A B C D E F 25 ICMB+ NC NC USB1- USB0- GND 24 ICMB- NC NC USB1+ USB0+ GND 23 GND GND GND USBVCC USBVCC GND 22 SATA0RX- SATA0RX+ SATA0TX- SATA0TX+ V1_RED GND 21 GND GND GND GND V1_GREEN GND 20 SATA1RX- SATA1RX+ SATA1TX- SATA1TX+ V1_BLUE GND 19 GND GND GND GND V1_HSYNC GND 18 TDO

V1_VSYNC GND

17 V2_RED2 TCK

V1_DDCD GND

16 V2_DDCD V2_HSYNC V2_GREEN TMS

V1_DDCC GND

15 V2_DDCC V2_VSYNC V2_BLUE TDI

HOTPLG GND 12-14 KEY KEY KEY KEY KEY KEY 11 \VCCOFF NC VBATIN \SPEAKER GPIO1 GND 10 AUCDINL AULINEINL AUGND \RST_BUT GPIO0 GND 9 AUCDINR AULINEINR AUGND GPIO2 GPIO3 GND 8 AUCDGND AUGND AUGND GPIO4 GPIO5 GND 7 AUSPDIF AUHPOUTL NC GPIO6 GPIO7 GND 6 NC AUHPOUTR NC GND GND GND 5 \M1LINK1000 \M2LINK1000 NC TX1- TXC- GND 4 \M1LINK100 \M2LINK100 NC TX1+ TXC+ GND 3 \M1LINK \M2LINK NC TX2- TX0- GND 2 \M1ACT \M2ACT NC TX2+ TX0+ GND 1 VCC3

VCC3

VCC

-12V GND

. for internal use only.

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J7005 A B C D E F 22 PMC2IO_05 PMC2IO_04 PMC2IO_03 PMC2IO_02 PMC2IO_01 GND 21 PMC2IO_10 PMC2IO_09 PMC2IO_08 PMC2IO_07 PMC2IO_06 GND 20 PMC2IO_15 PMC2IO_14 PMC2IO_13 PMC2IO_12 PMC2IO_11 GND 19 PMC2IO_20 PMC2IO_19 PMC2IO_18 PMC2IO_17 PMC2IO_16 GND 18 PMC2IO_25 PMC2IO_24 PMC2IO_23 PMC2IO_22 PMC2IO_21 GND 17 PMC2IO_30 PMC2IO_29 PMC2IO_28 PMC2IO_27 PMC2IO_26 GND 16 PMC2IO_35 PMC2IO_34 PMC2IO_33 PMC2IO_32 PMC2IO_31 GND 15 PMC2IO_40 PMC2IO_39 PMC2IO_38 PMC2IO_37 PMC2IO_36 GND 14 PMC2IO_45 PMC2IO_44 PMC2IO_43 PMC2IO_42 PMC2IO_41 GND 13 PMC2IO_50 PMC2IO_49 PMC2IO_48 PMC2IO_47 PMC2IO_46 GND 12 PMC2IO_55 PMC2IO_54 PMC2IO_53 PMC2IO_52 PMC2IO_51 GND 11 PMC2IO_60 PMC2IO_59 PMC2IO_58 PMC2IO_57 PMC2IO_56 GND 10 PMC2VIO PMC2IO_64 PMC2IO_63 PMC2IO_62 PMC2IO_61 GND 9 C1_DCD/TXD- C1_DSR/TXD+ \PHD_CS0 \PHD_IOR \PHD_IOW GND 8 C1_RXD/RTS- C1_RTS/RTS+ PHD_A0 PHD_D08 PHD_D07 GND 7 C1_TXD/CTS+ C1_CTS/CTS- PHD_IRQ PHD_D09 PHD_D06 GND 6 C1_DTR/RXD+ C1_RI/RXD- PHD_RDY PHD_D10 PHD_D05 GND 5 C2_DCD/TXD- C2_DSR/TXD+ \PHD_DAK PHD_D11 PHD_D04 GND 4 C2_RXD/RTS- C2_RTS/RTS+ PHD_DRQ PHD_D12 PHD_D03 GND 3 C2_TXD/CTS+ C2_CTS/CTS- \PHD_CS1 PHD_D13 PHD_D02 GND 2 C2_DTR/RXD+ \PHD_RST PHD_A2 PHD_D14 PHD_D01 GND 1 C2_RI/RXD- \PHD_PDIAG PHD_A1 PHD_D15 PHD_D00 GND

IDE Connector P1800

The IDE interface (UDMA” only) is designed as a 44-pin 2 mm pitch male onboard connector P1800 to fit directly to a 2.5-inch IDE hard drive or flash disk. P1800 is the secondary IDE interface of the onboard IDE controller.

Figure 9: IDE connector location

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Table 9: IDE connector

Name P1800 Name

GND 2 1 \HD_RST

HD_D8 4 3 HD_D7

HD_D9 6 5 HD_D6

HD_D10 8 7 HD_D5

HD_D11 10 9 HD_D4

HD_D12 12 11 HD_D3

HD_D13 14 13 HD_D2

HD_D14 16 15 HD_D1

HD_D15 18 17 HD_D0

NC 20 19 GND

GND 22 21 HD_DRQ0

GND 24 23 \HD_IOW

GND 26 25 \HD_IOR

NC 28 27 HD_RDY

GND 30 29 \HD_DAK

NC 32 31 HD_IRQ

ATA detect 34 33 HD_A1

HD_A2 36 35 HD_A0

\HD_CS1 38 37 \HD_CS0

GND 40 39 DASP

+5V 42 41 +5V

NC 44 43 GND

Gigabit Ethernet Interface U5600 and U5650

The Ethernet output front or rear can be selected via order. When ordered with the Gigabit front option, the connectors are located in the front panel.

Figure 10: Gigabit Ethernet connector location

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LED 1 LED 2

Figure 11: Gigabit Ethernet connector layout

Table 10: Gigabit Ethernet connector pin assignments

Name 10/100base Name 1000base U5600, U5650

TxD+ LP_DA+ 1

TxD- LP_DA- 2

RxD+ LP_DB+ 3

Not used LP_DC+ 4

Not used LP_DC- 5

RxD- LP_DB- 6

Not used LP_DD+ 7

Not used LP_DD- 8

Two LED’s (LED1-green and LED2-yellow) are integrated in each of the RJ45 connector. These LED’s indicate the link status and activity of the interfaces.

Table 11: Ethernet LED display definitions

LED1 green Function

On Link

Off No link

LED2 yellow Function

On, blink Tx/Rx activity

Off No activity

The pin assignment at the rear I/O is compliant with the PICMG 2.16 (Switched Packet Backplane) specification. The Ethernet interface can also be accessed via the CTM17 transition module (see Appendix A) for connector type and pin assignment.

Fast Ethernet Interface U5102

When ordering the Cx11 with the Fast Ethernet front option, the connector is located in the front panel.

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Figure 12: Fast Ethernet connector location

LED 1 LED 2

Figure 13: Fast Ethernet connector layout

Table 12: Fast Ethernet connector pin assignments

Name 10/100base U5102

TxD+ 1

TxD- 2

RxD+ 3

Not used 4

Not used 5

RxD- 6

Not used 7

Not used 8

Two LED’s (LED1-green and LED2-yellow) are integrated in the RJ45 connector. These LED’s indicate the link status and activity of the interfaces.

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Table 13: Fast Ethernet LED display definitions

LED1 green Function

On Link

Off No link

LED2 yellow Function

On, blink Tx/Rx activity

Off No activity

Serial Port COM1 P2201

The Cx11 offers two RS232 serial ports. All COM ports are accessible via the transition module, and additionally COM1 is accessible via a RJ45 type front panel connector. This connector has 8 pins only and does not support the RI (ring indicator) signal. For RS422/485 usage this missing signal is the RxD(negative receive data), therefore this front panel connector does not work with RS422/485. Please use the rear connections for RS422/485.

Figure 14: COM 1 location

COM1, 2 are software selectable for RS-232 or RS-422/485 operation within BIOS setup. The RS485 output drivers can be enabled or disabled with the DTR signal. An active DTR means the drivers to be enabled. When using the RS422 setting the output drivers are always enabled and the DTR signal is not used.

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Table 14: COM 1 pin assignments

Name RS232 Name RS422/485 P2200

DCD TXD- 2

DSR TXD+ 1

RXD RTS- 5

RTS RTS+ 8

TXD CTS+ 6

CTS CTS- 7

DTR RXD+ 3

RI RXD- Not available on front

GND GND 4

VGA Interface P4200

The monitor signals are available at the front panel on a standard 15-pin female D-Sub connector.

Figure 15: VGA connector location

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Table 15: VGA connector pin assignments

Name P4200

RED 1

GREEN 2

BLUE 3

HSYNC 13

VSYNC 14

DDC-Data 12

DDC-Clock 15

Fused +5V

GND 5, 6, 7, 8, 10

NC 4, 11

the Fused +5 V pin is protected with a 2 A fuse. For normal operation don’t exceed 100 mA current. The used fuse does automatically recover if the over current is resolved.

USB Interfaces P1680, P1681

Two USB channels are available at the front panel and two USB channels are available on rear IO.

Figure 16: USB connector location

Figure 17: USB connector layout

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Table 16: USB connector pin assignments

Name P1680

Fused +5V

USB0- 2

USB0+ 3

GND 4

the Fused +5 V pin is protected with a 2 A fuse. For normal operation don’t exceed 500 mA current. The installed fuse does automatically recover if the over current is resolved.

PMC1 Connectors P6201, P6202, and P6203

The following table lists the pin assignments of the onboard PMC1 connector. The PMC1 slot is 64 bit and 66 MHz capable and works with the internal second PCI bus of the 6700PXH PCI Bridge. If an installed PMC card operates at 33 MHz only the PCI bus speed is reduced to 33 MHz. Additional this slot is PCI-X capable with 66/100/133 MHz. The PMC is electrical and mechanical compliant to the specification IEEE 1386 and 1386.1 with enhancements of the Processor PMC Standard VITA 32-2003. The enhancements provide pins for a second device (IDSELB and REQB/GNTB) but don’t support a monarch PMC card.

The PCI signaling voltage is fixed to 3.3 V. PMC cards with +5 V I/O voltage must never be used on this PMC slot.

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Table 17: PMC1 connector pin assignments

P6201 P6202 P6203 Pin Pin P6201 P6202 P6203 NC +12 V Reserved 01 02 -12 V NC GND GND NC GND 03 04 PCIIRQ4# NC C/BE7 PCIIRQ5# NC C/BE6 05 06 PCIIRQ6# GND C/BE5 PRESENT# GND C/BE4 07 08 +5 V Reserved GND PCIIRQ7# Reserved V(I/O) 09 10 Reserved Reserved PAR64 GND PUP

AD63 11 12 NC +3.3 V AD62 PCICLK PCIRST# AD61 13 14 GND PDN aGND GND +3.3 V GND 15 16 GNT0# PDN aAD60 REQ0# PME# AD59 17 18 +5 V GND AD58 V(I/O)

AD30 AD57 19 20 AD31 AD29 GND AD28 GND V(I/O) 21 22 AD27 AD26 AD56 AD25 AD24 AD55 23 24 GND +3.3 V AD54 GND IDSEL AD53 25 26 C/BE3# AD23 GND AD22 +3.3 V GND 27 28 AD21 AD20 AD52 AD19 AD18 AD51 29 30 +5 V GND AD50 V(I/O) AD16 AD49 31 32 AD17 C/BE2# GND FRAME# GND GND 33 34 GND IDSELB AD48 GND TRDY# AD47 35 36 IRDY# +3.3 V AD46 DEVSEL# GND AD45 37 38 +5 V STOP# GND PCIXCAP PERR# V(I/O) 39 40 LOCK# GND AD44 Reserved +3.3 V AD43 41 42 RES. SERR# AD42 PAR C/BE1# AD41 43 44 GND GND GND V(I/O) AD14 GND 45 46 AD15 AD13 AD40 AD12 M66EN AD39 47 48 AD11 AD10 AD38 AD9 AD8 AD37 49 50 +5V +3.3 V GND GND AD7 GND 51 52 C/BE0# REQB# AD36 AD6 +3.3 V AD35 53 54 AD5 GNTB# AD34 AD4 Reserved AD33 55 56 GND GND GND V(I/O) NC V(I/O) 57 58 AD3 NC AD32 AD2 GND Reserved 59 60 AD1 RSTOUT# Reserved AD0 ACK64# Reserved 61 62 +5 V +3.3 V GND GND GND GND 63 64 REQ64# NC Reserved

Weak 10 kΩ pull-down (PDN) to GND and pull-up (PUP) to VIO.

NC Not connected

)

Reserved Reserved. Do not connect anything V(I/O) I/O Voltage, connected with +3.3 V

-12 V Only available if connected at the CPCI backplane.

PMC2 Connectors P7201, P7202

PMC2 is available on a CR11 and CT11 without the front Ethernet and/or front VGA connector. On a CP11 PMC2 is available in the second slot

The following table lists the pin assignments of the PMC2 connector. The PMC slot is 32 bit and 33 MHz capable and works with the internal primary PCI bus of the I/O Controller Hub. The PMC is electrical and mechanical compliant to the specification IEEE 1386 and 1386.1 with enhancements of the Processor PMC Standard VITA 32-2003. The enhancements provide pins for a second device (IDSELB and REQB/GNTB) but don’t support a monarch PMC card. The PCI signaling voltage is fixed to 5 V for this PMC2. Nevertheless PMC

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cards with +3.3 V or +5 V supply or I/O voltage can be used on this PMC slot.

Table 18: PMC2 connector pin assignments

P7201 P7202 Pin Pin P7201 P7202 NC +12 V 01 02 -12 V NC GND NC 03 04 PCIIRQ6# NC PCIIRQ7# NC 05 06 PCIIRQ4# GND PRESENT# GND 07 08 +5 V Reserved PCIIRQ5# Reserved 09 10 Reserved Reserved GND PUP

11 12 NC +3.3 V

PCICLK PCIRST# 13 14 GND PDN

GND +3.3 V 15 16 GNT0# PDN

REQ0# PME# 17 18 +5 V GND V(I/O)

AD30 19 20 AD31 AD29 AD28 GND 21 22 AD27 AD26 AD25 AD24 23 24 GND +3.3 V GND IDSEL 25 26 C/BE3# AD23 AD22 +3.3 V 27 28 AD21 AD20 AD19 AD18 29 30 +5 V GND V(I/O) AD16 31 32 AD17 C/BE2# FRAME# GND 33 34 GND IDSELB GND TRDY# 35 36 IRDY# +3.3 V DEVSEL# GND 37 38 +5 V STOP# GND PERR# 39 40 LOCK# GND Reserved +3.3 V 41 42 RES. SERR# PAR C/BE1# 43 44 GND GND V(I/O) AD14 45 46 AD15 AD13 AD12 GND 47 48 AD11 AD10 AD9 AD8 49 50 +5 V +3.3 V GND AD7 51 52 C/BE0# REQB# AD6 +3.3 V 53 54 AD5 GNTB# AD4 Reserved 55 56 GND GND V(I/O) NC 57 58 AD3 EREADY AD2 GND 59 60 AD1 RESETOUT# AD0 PUP

61 62 +5 V +3.3 V

GND GND 63 64 PUP

Weak 10 kΩ pull-down (PDN) to GND and pull-up (PUP) to VIO.

NC Not connected

)

Reserved Reserved. Do not connect anything V(I/O) I/O Voltage, connected with +5 V

-12 V Only available if connected at the CPCI backplane.

PMC-I/O Connector P6204 and P7204

Pin 1 of the I/O connector is PMCxIO_01; Pin 2 is PMCxIO_02 and so on. The x denotes PMC1 or PMC2 respectively. All traces are not connected to any signal onboard and no pairs or length adjusted traces are used to route this signals to the backplane connectors. Nevertheless adjacent signals at the PMC connector are routed with an almost equal length

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CHAPTER 6 Resources

Chapter Scope

This chapter describes system resources, such as memory mapping, register set and default interrupt request assignments.

Memory Map

The table below shows the memory address area used by the Cx11.

Table 19: Memory area assignments

Address Size Used by

$00000 - $9FFFF 640 kByte System RAM

$A0000 - $BFFFF 128 kByte Video RAM (if enabled)

Used by PCI ROMs: VGA, SCSI, Ethernet

$C0000 - $DFFFF 128 kByte

$E0000 - $FFFFF 128 kByte System BIOS

depends on available DRAM

$100000 - $3FFFFFFF Extended RAM

depends on available DRAM

Dynamically used by PCI devices

$4000000 - $FFFBFFFF

$FEC00000 - $FFEFFFFF System devices

$FFF00000 - $FFFFFFFF 1 MByte System BIOS

The following section provides an overview of the registers located in the I/O address area of the Cx11.

Note:

The address location of PCI devices such as SCSI or Ethernet are not described in the following tables because the System BIOS automatically configures

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(PnP, Plug and Play) each PCI device to avoid address conflicts. Many device drivers show the actual address locations after installation and loading.

Standard Register Set

The standard register set is the same as the standard PC/AT systems. The table below provides an overview of the address ranges occupied by these registers.

Table 20: Standard register set

I/O Address Range (Hex) Function

0x00h – 0x0Fh DMA Controller 1

0x20h – 0x21h Interrupt Controller 1

0x40h – 0x43h Counter / Timer

0x60h Keyboard Controller

0x61h NMI Status and Control

0x64h Keyboard Controller

0x70h – 0x71h RTC, NMI Mask

0x80h – 0x8Fh DMA Page register

0xA0h – 0xA1h Interrupt Controller 2

0xB2h – 0xB3h Power Management

0xC0h – 0xDEh DMA Controller 2

0xF0h – 0xF1h Coprocessor

0x100h – 0x107h Reserved

0x170h – 0x177h Secondary IDE

0x1F0h – 0x1F7h Primary IDE

0x278h – 0x27Fh LPT

0x2E8h – 0x2Efh COM port

0x2F8h - 0x2FFh COM port

0x3E8h – 0x3Efh COM port

0x3F8h – 0x3FFh COM1 port

a. Via setup three address ranges can be defined for the parallel interfaces and

four address ranges for the serial interfaces.

b. Used for onboard programmable options. They are not intended to be used

from normal users. For more explanation please check the ‘Board Specific Hardware Programmer’s Manual’

Plug and Play Devices

See ‘Board Specific Hardware Programmer’s Manual’

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Interrupts

The interrupt routing for standard components such as COM1/2 or LPT1 is in compliance with standard PC/AT systems. Unused interrupts can be used for add-on cards or other board specific PCI devices such as SCSI and Ethernet.

Table 21: Interrupt assignments

Hardware IRQ IRQ Source

INTC1

IRQ00 System Timer

IRQ01 Keyboard

IRQ02 Cascade from INTC2

IRQ03 COM2 / COM1

IRQ04 COM1 / COM2

IRQ05

IRQ06

IRQ07

INTC2

IRQ08 Real Time Clock

IRQ09 Power Management Contr.

IRQ10 PnP/PCI

IRQ11 PnP/PCI

IRQ12 PS/2 Mouse

IRQ13 Numeric Coprocessor

IRQ14 External IDE

IRQ15 Onboard IDE

NMI Parity Error,

ECC Error,

System Error

. This interrupt is available when no Interrupt Service Routine is installed.

. Interrupts are available for Plug and Play PCI devices

. This interrupt is available when PS/2 mouse is not connected.

. This interrupt is available when the primary IDE is disabled in SETUP.

. This interrupt is available when the secondary IDE is disabled in SETUP.

APIC Controller

The Cx11 supports also the Interrupt handlings with APIC (Advanced Interrupt Controller). This handling of the APIC interrupt services must be supported by

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the operating system. The I/O APIC handles interrupts very differently than the

8259. Briefly, these differences are:

• Method of Interrupt Transmission. The I/O APIC transmits interrupts

through a three wire bus, and interrupts are handled without need for the processor to run an interrupt acknowledge cycle.

• Interrupt Priority. The priority of interrupts in the I/O APIC is independent

of the interrupt number. For example, interrupt 10 may be given a higher priority than interrupt 3.

• More Interrupts. The I/O APIC in the Intel 6300ESB supports a total of 48

interrupts.

For a complete operation descriptions please refer to the ‘Intel 6300ESB I/O Controller Hub’ datasheet.

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CHAPTER 7 Function Blocks

Chapter Scope

This section gives a brief overview of the software interfaces of onboard devices on the Cx11 CompactPCI Single Board Computer.

Processor

The Intel Core Duo and Core 2 Duo families provide high performance with low power and features Enhanced Intel SpeedStep® technology which provides the ability to dynamically adjust the power and performance of the processor based on CPU demand. This results in optimal performance without compromising the power performance of the Cx11.

The processor die is thermally protected by two thermal monitor features. When reaching a maximum safe operating temperature the Thermal Control Circuit in the processor activates a throttling feature and reduces the voltage and frequency dynamically. If this feature is active the Cx11 will indicate it with short clicks at the speaker. In case of a catastrophic die overheating (above 125 °C) the Cx11 switches off the processor core voltage. Recovery from this catastrophic event can be done with a power off-on cycle only.

Memory Controller

The memory controller in the Cx11 supports double data rate two synchronous DRAMs (DDR2 SDRAM) with a data bus width of 128 bits + ECC. One, two or four banks are provided by the Cx11 with a size of either 512 Mbytes or 1 GByte. This results in a minimum memory size of 512 MByte and a maximum size of 4 GByte. When using memory configuration with 1 GByte and higher the interface uses the full 128 bit bandwidth of both on chip DRAM channels.

DMA Controller

In standard AT compatible PCs, as well as on the Cx11, the two DMA controllers integrated on the board are internally cascaded. Both controllers are

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compatible with the Intel 8237A. The DMA Controller 1 (DMAC1) is used for byte-wide transfers while the DMAC2 is used for word-wide transfers.

Interrupt Controller

The Interrupt controller on a standard PC consists of two 82C59A devices with eight interrupt request lines each. The two controllers are cascaded so that 14 external and two internal interrupt sources are available. The master interrupt controller provides IRQ [7...1], the slave interrupt controller provides IRQ [15...8]. IRQ2 is used to cascade the two controllers, IRQ0 is used as a system timer interrupt and is tied to interval timer 1, counter 0. The remaining 14 interrupt lines are mapped to various onboard devices. Each 82C59A provides several internal registers. The interrupts at the IRQ input lines are handled by two registers, the interrupt request register IRR and the in-service register ISR. For programming details see the 82C59A data sheet. The Cx11 supports also the Interrupt handlings with APIC (Advanced Interrupt Controller). This handling of the APIC interrupt services must be supported by the operating system. The I/O APIC handles interrupts very differently than the 8259.

Timer

Standard PCs like the Cx11 are equipped with an 8254 compatible timer. This timer contains three counters. Each counter output provides a key system function. Counter 0 is connected to interrupt controller input IRQ0 and provides a system timer interrupt for time-of-day, floppy disk timeout and other system timing functions. Counter 1 generates a refresh request signal and Counter 2 generates the sound for the speaker.

The following table gives an overview over the 8254 functions.

Table 22: Interval timer functions

Interval Timer Functions

Function Counter 0 (System Timer)

Gate Always on

Clock In 1.193 MHz (OSC/12)

Out IRQ0 (INT1)

Function Counter 1 (Refresh Request)

Gate Always on

Clock In 1.193 MHz (OSC/12)

Out Refresh Request

Function Counter 2 (Speaker Tone)

Gate Programmable via Port $061

Clock In 1.193 MHz (OSC/12)

Out Speaker

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The counter/timers are programmed by I/O accesses. A single control word register controls the operation of all three counters. For more information on programming and a detailed register description see the 8254 data sheet.

Real Time Clock

The RTC is a low-power clock that provides a time-of day clock and a 100-year calendar with alarm features and battery backed operation. The time-of-day function includes 14 control registers. Other features include maskable interrupt sources and 242 bytes of general purpose CMOS RAM used by system BIOS. Valid RAM data and time can be maintained after power down through the use of an external battery source. The RTC is software compatible to the Dallas DS1287, Motorola MC146818 and the Freescale equivalent.

EIDE and SATA Interfaces

The Cx11 offers various IDE/ATAPI and SATA interfaces.

There are two SATA channels available which are routed to the backplane. They can transfer up to 150 Mbytes/s.

The signals of the primary parallel EIDE interface are available at the backplane IO connector only. The signals of the secondary EIDE interface are used for connection of a 2.5'' HDD or flash disk via connector P1800 on board. The Cx11 System BIOS automatically detects connected EIDE/SATA HDDs or flash disks and enters the corresponding drive parameters into the BIOS setup. This feature allows faster and easier handling of varying types of EIDE hard disks. At the primary EIDE interface two hard disks can be connected. In this case one HDD must be configured as master and the other one as slave. Read the hard disk manual to find out where these jumpers are located on your drive. The optional 2.5” onboard disk is connected to an onboard EIDE connector (secondary EIDE interface).

Using EIDE and SCSI devices: The PC allows the simultaneous use of EIDE, SATA and SCSI hard disks. BIOS setup allows reordering drives to boot from either SCSI or EIDE/SATA drives.

Please note:

For correct operation of the parallel EIDE interface, a maximum cable length of 12 inches (30 cm) must not be exceeded. For use with fast transfer rates such as UDMA 66 and higher a high density 80 pole cable must be used. The use of round wired cables is not recommended. For correct operation of the serial SATA interfaces, a maximum cable length of 100 cm must not be exceeded.

USB Interface

The Cx11 has four USB 2.0 channels. They are backward compatible to USB

1.0/1.1. The USB host controller supports legacy Keyboard/Mouse usage with USB–based keyboard and mouse without using additional software drivers.

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Serial Interface

The Cx11 serial ports are fully compatible with the NS16450 and NS16550. This means that each serial interface provides a 16 byte FIFO and therefore offers a higher performance than earlier used standard serial interfaces. The UARTs have programmable baud rate generators capable of 50 to 115200 baud. There are four address locations defined for serial interfaces on standard PCs. The two serial interfaces are I/O mapped and can occupy four address ranges.

Graphics Controller

The Graphic Controller ATI M22 has the following features:

• Highly integrated Flat Panel and CRT GUI

• Max. pixel clock 300 MHz - 400 MHz

• Dual Independent Display for CRT front and CRT/Flat Panel rear

• CRT resolution up to 2048x1280, DVI up to 1600x1200

Software Installation

The Technical Product Information CD-ROM supplied with the Cx11 includes the most commonly used software drivers and utilities.

PMC Interface

The PCI Mezzanine Card (PMC) Interface is an additional slot for parallel mounted expander or option cards. Please see chapter ‘PCI Mezzanine Card (PMC)’ on page

97 of this manual for further details. The Cx11 PMC

Connector interface is described on page

94.

IPMI (CT11)

A Baseboard management controller (BMC) is implemented on the CT11, the interfacing between host processor and the system management network. This controller can also work as a Peripheral management controller (PM). The BMC is mapped into the local CPUs I/O address space, specified in the ‘CR11, CT11, CP11, VR11, VP11 Board Specific Hardware Programmer’s Manual’. The functionality of the IPMI controller is described in the ‘Intelligent Platform Management Interface for CT11 User’s Manual’. For information about the System Management in CompactPCI systems, please refer to the PICMG 2.9 specification 'System Management Specification'. More information about IPMI can be found on the Intel website.

IPMB

The Intelligent Platform Management Bus (IPMB) is an I2C-based bus that provides a standardized interconnection between different CPCI-boards within a chassis. The standardized connection to the backplane is shown below:

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Table 23: IPMB backplane pin assignments

J7001 Name Description

B17 IPMB_SCL Serial Clock

C17 IPMB_SDA Serial Data

A4 IPMB_PWR Power Supply for all IPMI-devices

Private I2C

The Private IPMI I2C bus is equivalent to the onboard SMBus (described in 'Additional devices/SMB'). The IPMI-controller works as a second Master on the I

C bus to read the SMBus devices.

Software Installation

The Technical Product Information CD-ROM supplied with the CT11 includes the most commonly used software drivers and utilities.

Ethernet Interface

The Ethernet controller 82571EB from Intel used with the Cx11 is a high performance dual Gigabit Ethernet 10/100/1000 Mbit PCI controller. Both channels are available on the Cx11. Front or rear Ethernet can be selected via order.

For registration and identification of a workstation in a LAN, a unique ID number is required. Each network card is assigned a unique ID number, which resides in an Ethernet address ROM on the Cx11. An Ethernet boot option can be enabled in BIOS setup.

Optionally there is a front 10/100 Mbit Fast Ethernet channel based on an Intel 82551 available

Software Installation

The drivers available for the Ethernet controller 82571EB support a large number of operating systems. The table shows operating systems supported by the available software:

Table 24: Supported operating systems

Type System

ODI DOS, VxWorks

NDIS DOS, Linux

NDIS Windows NT 4.0, 98, 2000, XP

The Technical Product Information CD-ROM supplied with the Cx11 includes the most commonly used software drivers and utilities.

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Additional devices

Hot Swap

The PICMG 2.1 Hot Swap compliant Cx11 allows the orderly insertion and extraction under power, without adversely affecting system operation. According to the PICMG 2.1 Hot Swap specification, the Cx11 uses its 2.7 kΩ pull-up resistors for biasing purposes during hot insert. During this phase all CPCI signals are pre-charged to 1.1 V with these 2.7 kOhm resistors. The Hot Swap process can be described in terms of three processes:

Physical Connection Process - describes the acts of:

• Hot Insertion - by which Cx11 is installed in a live system (as a non-

system CPU)

• Hot Extraction – which means the Cx11 is removed from a live system (as

a non-system CPU)

• Hardware Connection Process - Power Up/Down of the Cx11 onboard

voltages

• Software Connection Process - Connection/disconnection of the software

layer(s) At the end of the Physical Connection Process (the shortest Pin has connection) the Hot Swap controller powers up the onboard voltages in a defined manner. After the handle switches are closed, the CPCI bridge generates an insertion event, which signals a Hot Swap insertion to the system. The system then scans the CPCI-bus for changes. Please note, that the CPCI backplane must support this function and appropriate software must be installed for Hot Swap to work properly.

SMBus devices

The Cx11 uses a serial 2-wire I2C bus to communicate with several onboard devices:

Table 25: SMBus devices

Device Designators SMBus address a

Clock synthesizer * U1000 1101 001Xb

Clock buffer * U1110 1101 110Xb

SPD Eeprom U1981 1010 1XXXb

Factory Eeprom U1981 1010 00XXb

User Eeprom 24C512 U1983 1010 010Xb

Temperature Sensor U1985 0101 011Xb

Optional Temperature sensor LM83

U1982 0011 001Xb

IPMI Controller U8000 0010 000Xb

Northbridge E7520 U1300 0011 000Xb

Southbridge 6300ESB (slave) U1600 1000 100Xb

PCIe bridge 6700PXH U6000 1100 000Xb

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Devices marked by * are handled by BIOS. It is strongly recommended not to access these devices by user software. An X at bit 0 represents the R/#W bit.

SMBus external (IPMB)

The Intelligent Platform Management Bus (IPMB) is available on the J7002 CPCI connector for external use. External access via IPMB to the onboard SMBus devices can only be done via the IPMI controller. For more information please see the IPMB description on page

64 within the IPMI controller section.

Temperature Sensor

A temperature sensor is implemented on the Cx11 board. The sensor is located close to the CPU and shows the die-temperature of the CPU and the local onboard temperature. For programming information please see the 'AMI BIOS for CR11, CP11, CT11 User’s and Programmer’s Manual'.

Serial EEPROM

For storage of user data a serial EEPROM is implemented on the Cx11 board. The user EEPROM is a 24C04 (optional a 24C512) type with 512 Bytes. More information about writing and reading the contents can be found in the data sheets from the manufacturer (e.g. Microchip Technology, SGS Thomson, Atmel, Catalyst and many others).

Power Management Event

A Power Management Event can be initiated on Cx11 by one of the following events.

Table 26: Power management events

Event Description

ENUM

Wake Cx11

if a non-system board is removed or

inserted

REMOVE Wake Cx11 if user wants to remove this Cx11

Wake on LAN Wake Cx11 by Ethernet event

Wake on IO Wake Cx11 by IO-device i.e. Modem, KB, MS, etc.

. Cx11 in System slot

INTP, INTS

The INTP and INTS signals (PICMG2.0) are not supported on the Cx11.

ENUM#

ENUM (PICMG 2.0, open-collector) is available on J7001_C25. This signal is be driven by Hot Swap compatible boards after insertion and prior to removal. For Cx11 in System Slot, the input ENUM is able to generate an interrupt to force the software to interrogate all boards within the system for resource allocation regarding I/O, memory and interrupt usage.

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If the Cx11 works in a peripheral slot, the non-transparent bridge generate the output ENUM conform to the specification of a Hot Swap compliant board. For programming information about this PnP device, please see the 'AMI-BIOS for CR11, CP11, CT11 User’s and Programmer’s Manual'.

Geographic Addressing

If the backplane supports geographic Addressing, the Cx11 can detect the unique Address in a CPCI-System with the GA [4...0] Pins (PICMG 2.0) on J7002.

For programming information please see the 'AMI BIOS for CR11, CP11, CT11 User’s and Programmer’s Manual'. For more information about geographic addressing in appliance to system management, see PICMG 2.9.

GPIO (0...7)

Eight GPIO-Pins are available on J7004. These Pins can be used for I/O functions with output 3.3 V signals as well as 5 V tolerant inputs. For more information please see the ‘Board Specific Hardware Programmer’s Manual’.

Watchdog

For security of application software, the Cx11 offers a software controlled hardware two stage watchdog with independent count values for each stage. First stage generates an INT or SMI. The second stage issuing a reset signal if its time-out interval expires. The configurable granularity reaches from 1µs to 10min. For more information please see the Intel 6300ESB I/O Controller Hub datasheet and the ‘Board Specific Hardware Programmer’s Manual’.

Programmable Timer

An additional programmable Timer is implemented on the Cx11. The timer can generate an Interrupt.

For more information please see the ‘Board Specific Hardware Programmer’s Manual’.

LEDs

Two LED’s are available at the front panel green/red and blue. The Status LED is a green/amber/red tricolor for BIOS power-up status indication, after boot loading the user software is free to use this LED for its own purpose.

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Table 27: BIOS power-up status

Status LED color

Power-up, still Reset state Red on (also the blue LED is on)

BIOS early init Blink red

BIOS start POST Blink amber

BIOS POST init Blink green

OS boot Green on

System halted or reset Red on

OS initiated Sleep or Shutdown Amber on

The blue LED is the Hot Swap LED and is working according the Hot Swap specification.

Reset Button

There is a Reset Button onboard. An external Reset button may be connected between the appropriate IO connector at the back side and GND. The PRST# on J7002_C42 (PICMG2.0) is used as Reset input only for the system board and is in this case, compatible to the onboard button.

• If the Cx11 works as a System board:

The push button will issue a hard power-on reset. The reset signal is active for all subsystems of the Cx11.

• If the Cx11 works as a Peripheral board:

1) The push button will issue a hard power on reset. The reset signal is active for the Cx11 including PMC modules, but will not reset other peripherals or the System board.

2) The Cx11 will signal a Hot Swap Insertion event when reset.

Speaker

An internal speaker is implemented on the Cx11 except on a conduction cooled CR11. An external standard PC compatible speaker may be connected between the appropriate IO connector at the backside and +5 V.

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CHAPTER 8 Specifications

PCB

FR4 Multilayer

Size

Total board size: 6U, 4 HP (CR11 and CT11) Total size with optional extension board 8HP (CP11)

Dimensions

PCB: 233.35 mm x 178 mm x 20 mm (CR11 and CT11 single slot) PCB: 233.35 mm x 178 mm x 40 mm (CP11 dual slot)

Weight

Approx. 600 g (with front panel and heat sink), for a HDD add 90 g; the conduction cooled version is about 700g. The exact values depend on model and style

RoHS compliance

The Cx11 is RoHS compliant.

Power Consumption

The following table is intended to help you calculate the power consumption of a Cx11 system. For measurement, the Cx11 board is mounted on a CPCI backplane. During measurement, the power consumption of the backplane, keyboard and the hard disk drive are withdrawn from the results. The values are typical measured. The current drawn from +5 V supply the CPU and all

external devices. The +3.3 V supply all other components on the Cx11.

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Table 28: Power consumption CPU dependent

Cx11 DOS, one core

running full cache access, one core idle, CPU die around +75 °C*

Windows XP, both CPU cores running a thermal design power consumption instruction mix at +100 °C die temperature

+5 V +5 V

2.17 GHz (T7400) 4.9 A 7.1 A

2 GHz (T2500) 4.0 A 5.8 A

1.67 GHz (L2400) 2.7 A 3.7 A

1.5 GHz (L7400)** 3.1 A 4.1 A

1.2 GHz (U2500)** 1.4 A 2.0 A

1.07 GHz (Cel423)** 1.2 A 1.4 A

* for every 25 °C more please add around 10 %. The Celeron CPU has one

CPU core only.

** estimated values

Table 29: Power consumption DRAM dependent

Cx11 DOS prompt or

CPU running full cache access, mid range temperature *

BIOS POST during memory initialization*

Windows XP, 3D graphics active, both Gigabit and the FastEthernet channels linked

+3.3 V +3.3 V +3.3 V

512 MB (1 bank, 9 devices)**

8.4 A 11.7 A 9.3 A

1 GB (2 banks, 18 devices)**

8.7 A 12.0 A 9.6 A

2 GB (4 banks, 36 devices)

9.2 A 12.7 A 10.1 A

4 GB (4 banks, 36 devices)

9.2 A 12.7 A 10.1 A

* for every Ethernet channel linked to gigabit please add 0.5 A..

The exact values may vary with different dram vendors by ±20 %

** estimated values

• When using onboard PMC modules don’t forget to add their power

consumption

• With an onboard hard disk drive please add following values to the +5 V

current:

• During power up 0.9 A max.

• In an idle condition 0.13 A typical.

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• During read/write access 0.42 A typical

Values are taken from the Fujitsu MHT 2060 AT datasheet

• With an onboard compact flash drive please add 0.1 A to the +5 V current

• Connectors P1680, P1681 and P4200 provide fused VCC voltage (+5 V).

The total current drawn from this source may not exceed 1.0 A

Onboard Lithium Battery

BR1225 (50 mAh), estimated life time depending on temperature and power status. The diagram below shows discharge if board is not powered, i.e. if battery has to supply all current for the clock circuits.

0,0

2,0

4,0

6,0

8,0

10,0

12,0

14,0

16,0

25 35 45 50 55 65 75

Temp [°C]

Load [µA]

measured

"+20%"

Figure 18: Battery current versus temperature

At temperatures lower than +25 °C use the value at 25 °C. Actually power usage is lower, which means longer operational lifetime for the battery.

All values were taken at 40 % RH (relative humidity).

Using the values of the diagram above (Battery current versus temperature) lifetime of the battery can be derived from the diagram below (Battery current versus time).

Self-discharge rates increase by less than 3 percent per year for temperature values up to 95 °C. Typical self-discharge rates are less than 0.3 percent per year at an ambient temperature of 25 °C.

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Discharge Battery - BR1225

0,01

0,10

1,00

10,00

100,00

0,1 1 10 100

Discharge Current [ µ A]

Discharge Time i n Year s

Battery -BR1225

Figure 19: Battery current versus time

The battery has a user accessible holder on the Cx11.

If exchanged by customer, please use same type for replacement and ensure correct polarization.

For operating without battery please check the following description of the external battery input.

External Battery Input

VBATIN input ranges 2.4 V to 3.3 V, max. Current (@ 3.0 V; 35 °C) 5 µA

Without an onboard battery (Styles 6 or 8) it is recommended to use an external supply connected to this input. This voltage supplies the real time clock. Without battery and without this supply voltage, the real time clock oscillator has to be started at each power up. This time gets longer when operating at lower temperatures and can be up to around 30 seconds (at -40 °C). At normal ambient temperatures this delay is below one second.

The red status LED goes off after the reset sequence and starts its normal blinking within the BIOS POST after the RTC oscillator is up.

When ordering a battery-less CR11 (Styles 6 or 8), the setup information is stored automatically within the BIOS ROM and is updated via standard BIOS Setup function. No external software is needed to create a user defined setup like in earlier products from GE Fanuc Intelligent Platforms. It is still

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recommended to use an external supply voltage to this battery input to avoid the power on oscillator start time and to keep the date and time information.

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Environment Conditions

Ambient temperatures and humidity values for the Cx11:

Table 30: Environment conditions

Styles 1, 2 Styles 3, 4 Styles 6, 8

High Temperature

- Storage +85 °C +85 °C +105 °C

- Operating See diagram on next page See note

Low Temperature

- Storage -40 °C -40 °C -55 °C

- Operating 0 °C -40 °C -40 °C

Temperature Shock

- Storage +/-10 °C/min +/-20 °C/min +/-20 °C/min

- Operating +/-5 °C/min +/-10 °C/min +/-10 °C/min

Relative Humidity Up to 95 %, non-condensing

- Storage, Operating

CT11 and CP11 only support commercial and extended temperature styles 1 and 3. For more information on the conduction cooled version (style 8), please check the later available thermal report document of the CR11.

Shock and vibration values for the Cx11:

Table 31: Shock & vibration parameters

Styles 1-4 Style 6 Style 8

Vibration

- Spectrum 5 to 100 Hz 5 to 2000 Hz 5 to 2000 Hz

- Acceleration 2 g 2 g 14 g

rms rms rms

Shock

- Amplitude 12 g 20 g 40 g / 100 g

- Duration 6 ms 6 ms 11 ms / 6 ms

CT11 and CP11 only support commercial and extended temperature styles 1 and 3.

Maximum height usage

Table 32: Maximum height usage

Styles 1-6 Style 8

Maximum height

- Operating 4.5 km Vacuum

- Storage 12 km Vacuum

Only the conduction cooled board (Style 8) is capable to be used in a vacuum environment. All other styles contain batteries or do not have the possibility to be cooled without airflow.

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For highest operating temperatures (Styles 1-6) please refer to the following diagram:

CR11 V1

no PMC, no HDD,

next slot occupied,

worst thermal contact,

both cores at 100°C

are running a

thermal design power

instruction mix,

final measurements

PS 27.08.2007

30,0

40,0

50,0

60,0

70,0

80,0

11,522,53

free Airspeed into Slot m/s

Air Input

Temperature °C

L2400 Core™Duo 1.67GHz

L7400 Core™2Duo 1.5GHz

T2500 Core™Duo 2.0GHz

T7400 Core™2Duo 2.16GHz

Figure 20: Temperature vs. airspeed

• The above diagram is valid for a usage at heights up to 1000 m above sea

level. For higher heights the maximum temperature values have to be reduced in an appropriate way.

• The core temperature of the CPU can be read out via the onboard

temperature sensor. The value must be kept below 100 °C for all operating conditions. This value is already included in the airspeed diagram above. If this temperature limit is violated, the Core™ Duo CPUs will start to reduce its internal frequency temporarily. This can be heard by a short click of the speaker which occurs every 0.8 seconds. The Celeron processor will not automatic switch down to lower frequencies but will stop its internal clock in preprogrammed intervals.

• When using an onboard hard disk drive (not with flash disk) the operating

temperature is limited to 50 °C

• When using one or two PMC modules, please consider their power

consumption and thermal limits in calculating the max. operating temperature

For more information on the conduction cooled version (style 8), please check the later available thermal report document of the CR11.

Electrical Characteristics

The supply voltages are +5 V, 3.3 V and +12 V. The -12 V are required only if needed on the PMC slot. If this voltage appears too late in the startup cycle, the

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Hot Swap controller will not control the ramp-up of the optional -12 V on startup. In that case the -12 V inrush current to load the decoupling capacitors on the Cx11 and on the PMC may be detected as an overcurrent. This may trigger the over current protection circuit and the Hot Swap controller shuts off the complete voltage supply, which is indicated by the blue LED. Make sure that the -12 V power supply is active and up as fast or earlier as the other voltages to prevent the shutdown due to over current situation.

All output voltages of the Cx11 boards have an over current protection. The maximum current for each voltage is shown below:

Table 33: Power supply parameters

Name U Imax Description Fuse

+12VIN 12 V 0.5 A Supply for Hot Swap

controller and PMC-Module

U7700

-12VIN -12 V 0.1 A Supply for PMC-Module U7700

USBF_VCC 5 V 2 A Supply for front panel USB F1681

USBR_VCC 5 V 2 A Supply for rear USB via

transition module

F1680

. LTC1643L-1CGN (Linear Technologies)

. TPS2034D (Texas Instruments)

Supply voltage range

The following ranges are defined by the CPCI specification PICMG 2.0 Rev

3.0. The voltages have to be measured at the Cx11 board (for example at the CPCI connector pins at the solder side):

Table 34: Supply voltage range

Supply Voltage and tolerance

+5 V 5.0 V +5 % / -3 %

+3.3 V 3.3 V +5 % / -3 %

+12 V 12.0 V +/- 5 %

Note:

The PCI specification defines +3.3 V with a margin of ±0.3 V for all PCI add on cards. This specification is valid too for PMC modules used on the Cx11. Please note that some PMC mezzanine modules may not function when the Cx11 supply voltage is close to the lower margin of +3.3 V -3 % (PICMG 2.0).

GPIO 0...7

This general purpose I/O pins can be used as inputs, with following signal levels:

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Table 35: GPIO input voltages

Signal level

low -0.5 V ... +0.8 V

high +2.0 V ... +5.5 V

When used as outputs, the following signal levels are supplied:

Table 36: GPIO output voltages

Signal level at current

low -0.4 V at 6 mA sinking

high +2.4 V at 3 mA sourcing

Electrical clearance

The Cx11 is designed to meet the parameters as listed below.

Voltage between conductors (DC or AC peaks) of 51 V – 100 V require a spacing of

- 0.6 mm for type B2 conditions

external conductors, uncoated, sea level to 3050 m.

These rules are in accordance with IPC-2221 requirements.

Isolation

The Isolation of the Ethernet outputs on front is limited to 500 V peak against GND and any other supply voltage.

By itself the onboard digital ground GND and the front panel/chassis frame ground FGND are isolated on the Cx11 with a layout distance of more than 0.6 mm in all PCB layers. However, many standard devices (USB-keyboard, USBmouse, and monitor) except Ethernet will connect FGND and GND directly in the device. Also standard racks (our starter cage too) connect both grounds at the power supply for safety reasons.

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Placement Plan Component Side Cx11 V1

Figure 21: Cx11 V1 component side placement plan

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Placement Plan Solder Side Cx11 V1

Figure 22: Cx11 V1 solder side placement plan

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Appendix A Transition Module CTM17

The CTM17 transition module is used for easy connection of I/O signals to standard connectors.

Please note:

When using the Cx11 in a peripheral slot supporting hot swap, care must be taken with EIDE drives. They should not be powered during the extractioninsertion process. The former CTM12 with CT8 or Cx9 did support this necessary power switching.

To avoid this problem please use SATA disks instead. They are physically hot swappable.

Please note:

You either can use a DVI display on P4100 or a standard VGA Monitor/Display when using a DVI to VGA adapter. Depending on the front VGA option ordered with the Cx11, the front VGA channel is not supported on the Cx11 but routed to a header on the CTM17. In these configurations you have two independent display outputs on the CTM17.

Please refer to the drawing for the location of available interfaces:

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Figure 23: CTM17 component locations

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CTM17 Interfaces

This chapter describes all connector pin assignments on the CTM17 transition module.

IDE Connector P1800

The IDE interface is designed as a 40-pin 2.54 mm pitch male connector to fit directly to one or two external IDE hard drives. The cable length must not exceed 30 cm. It is recommended to use an 80 pole high density cable for UDMA transfer.

Figure 24: IDE connector location

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Table 37: CTM 12 IDE connector

Name P1800 Name

GND 2 1 \RST_DRV

HD_D8 4 3 HD_D7

HD_D9 6 5 HD_D6

HD_D10 8 7 HD_D5

HD_D11 10 9 HD_D4

HD_D12 12 11 HD_D3

HD_D13 14 13 HD_D2

HD_D14 16 15 HD_D1

HD_D15 18 17 HD_D0

NC 20 19 GND

GND 22 21 HD_DRQ0

GND 24 23 \HD_IOW

GND 26 25 \HD_IOR

NC 28 27 HD_RDY

GND 30 29 HD_DAK0

NC 32 31 HD_IRQ

NC 34 33 HD_A1

HD_A2 36 35 HD_A0

\HD_CS3 38 37 \HD_CS1

GND 40 39 NC

SATA Connectors P1600, P1601 and P1602

The SATA interface has two order options. Either you have two connectors for standard SATA cable connection (P1600 and P1601) or you have a direct connector to an onboard SATA HDD (P1602) and one connector for a SATA cable (P1600).

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Figure 25: SATA connector locations

Audio Connectors P2903, P2900, P2901, P2904, P2905

The CTM17 provides a header (P2903) for all audio signals. If there is no onboard SATA HDD there are connectors on the front panel for headphone out, line in and digital SPDIF out. The headphone output and the line in are standard

3.5mm jacks. Additional there is also an onboard header (P2904) which can be used for CD or other audio input.

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Figure 26: Audio connector locations

Table 38: Audio connector pin assignments

Name P2903 Name

HP_OUT_L 1 2 HP_OUT_R

AGND 3 4 LINE_IN_L

LINE_IN_R 5 6 AGND

NC 7 8 SPDIF_OUT

GND 9 10 FUSE_VCC

+5 V supplied by the Cx11 and fused with max 2 A at CTM17 for normal

operation don’t exceed 100 mA at this pin.

Ethernet Interface 10/100/1000BaseT P5000 and P5500

The Ethernet interfaces for Rear-IO requires usage of CAT 5 cable for proper operation with 100/1000BaseT.

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LED 1 LED 2

Figure 27: CTM17 Ethernet connector layout

Figure 28: Ethernet connector locations

Table 39: CTM17 Ethernet connector pin assignments

Name 10/100base Name 1000base Ethernet1, 2

TxD+ LP_DA+ 1

TxD- LP_DA- 2

RxD+ LP_DB+ 3 NC

LP_DC+ 4

LP_DC- 5

RxD- LP_DB- 6 NC

LP_DD+ 7

LP_DD- 8

Two LEDs (LED1-green and LED2-yellow) are integrated in the RJ45 connector. These LED’s indicate the link status and activity of the interfaces.

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Table 40: Ethernet LED display definitions

LED1 green Function

On Link

Off No link

LED2 yellow Function

On, blink Tx/Rx activity

Off No activity

Serial Interfaces COM1 P2200 and COM2 P2201/P2202

The Cx11 offers two RS232 serial ports. All COM ports are accessible via the Transition module at 10-pin headers and are software selectable for RS-232 or RS-422/485 operation. The RS485 output drivers can be enabled or disabled with the DTR signal. An active DTR means the drivers to be enabled. When using the RS422 setting the output drivers are always enabled and the DTR signal is not used. COM2 is also available at the rear panel with a 9-pin D-sub connector. When ordering the CTM17 without the onboard SATA HDD option, there is a front panel connector P2202 for COM2 available.

Figure 29: Serial connector locations

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Table 41: COM1/COM2 connector pin assignments

Name RS232 Name RS422/485 COM2 P2202 P2200,2201

DCD TXD- 1 1

DSR TXD+ 6 2

RXD RTS- 2 3

RTS RTS+ 7 4

TXD CTS+ 3 5

CTS CTS- 8 6

DTR RXD+ 4 7

RI RXD- 9 8

GND GND 5 9

FUSE_VCC

- 10

+5 V supplied by the Cx11 and fused with max 2 A at CTM17 for normal

operation don’t exceed 100 mA at this pin.

Graphics interfaces

The CTM17 offers an analog/digital DVI interface and if it is not used on the front panel of the Cx11, a completely separate VGA interface.

Figure 30: Graphics connector locations

DVI-I connector P4000

The CTM17 provides a DVI-I connector to connect DVI capable monitors. Both digital and analog video signals are provided. For the digital signals the

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Transition Minimized Differential Signaling (TMDS) is used. The maximum resolution with a Cx11 is limited to 1280x1024. For use with standard VGA monitors please use a DVI to VGA adaptor.

Figure 31: DVI connector layout

Table 42: DVI connector digital pin assignment

Pin Signal name Pin Signal name

1 TX2- (TMDS Data2–) 13 NC

2 TX2+ (TMDS Data2+) 14 FUSE_VCC

3 GND 15 GND

4 NC 16 NC

5 NC 17 TX0- (TMDS Data0–)

6 DDC Clock 18 TX0+ (TMDS Data0+)

7 DDC Data 19 GND

8 VSYNC 20

9 TX1- (TMDS Data1–) 21

10 TX1+ (TMDS Data1+) 22 GND

11 GND 23 TXC+ (TMDS Clock+)

12 NC 24 TXC- (TMDS Clock–)

Table 43: DVI connector analog pin assignments

Pin Signal name

C1 RED Analog Red Video

C2 GREEN Analog Green Video

C3 BLUE Analog Blue Video

C4 HSYNC Analog Horizontal Sync

C5 GND

+5 V supplied by the Cx11 and fused with max 2 A at CTM17 for normal

operation don’t exceed 100 mA at this pin.

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VGA2 Interface P4200

The optional second VGA monitor signals are available on P4200 a 14-pin male header. They are available if the front VGA option on the Cx11 is not mounted by order (i.e. when ordered with two PMC slots).

Table 44: VGA connector pin assignment

Name

P4200

V2_RED 2

V2_GREEN 4

V2_BLUE 6

V2_HSYNC 8

V2_VSYNC 10

GND 1, 3, 5, 7, 9, 11

DDC-DATA 12

DDC-CLK 13

USB connector P1680, P1681

Four channels are available on a 10-pin male header. USBVCC is supplied and controlled by the Cx11 board. It is fused with 2 A, but for normal operation don’t exceed 500 mA at this connectors.

Figure 32: USB connector location

Figure 33: USB connector pin assignments

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Miscellaneous connector P2001

The header P2001 contains miscellaneous signals:

Table 45: Miscellaneous connector pin assignment

Name P2001 Name

ICMB+ 1 2 ICMB-

GND 3 4 GND

VBATIN

5 6 GND

\RST_BUT 7 8 GND

\SPEAKER 9 10 FUSE_VCC

+5 V supplied by the Cx11 and fused with max. 2 A at CTM17. For normal

operation don’t exceed 100 mA at this pin.

VBATIN is used to connect an external battery to Cx11. For a description

please check the section External Battery Input.

PMC I/O connectors P7101, P7102

The PMC I/O signals of both PMC slots are available at 64-pin male headers (P7101/P7102). The following table lists the pin assignments of the PMC I/O signals at the 64-pin header. The I/O signals from PMC 1 (PMC1IO_xx) are connected to P7101 and the I/O signals from PMC 2 (PMC2IO_xx) are connected to P7102.

Table 46: PMC I/O 64-pin header connector pin assignments

P7101/P7102 Pin P7101/P7102

PMCxIO_01 1 2 PMCxIO_02

PMCxIO_03 3 4 PMCxIO_04

PMCxIO_05 5 6 PMCxIO_06

… … … …

PMCxIO_63 63 64 PMCxIO_64

GPIO connector P2000

The general purpose I/O signals of the Cx11 are available at a male header.

Table 47: GPIO connector pin assignment

Name P2000 Name

GPIO0 1 2 GPIO1

GPIO2 3 4 GPIO3

GPIO4 5 6 GPIO5

GPIO6 7 8 GPIO7

GND 9 10 FUSE_VCC

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+5 V supplied by the Cx11 and fused with max 2 A at CTM17. For normal

operation don’t exceed 100 mA at this pin.

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Placement Plan

Figure 34: Placement Plan CTM17

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Appendix B PCI Mezzanine Card (PMC)

The PCI Mezzanine Card (PMC) Interface is an additional slot for parallel mounted add on cards. The interface is compliant to the IEEE 1386.1 specification and is based on the electrical and logical layer of the PCI specification. Check for possible height incompatibility in ‘Features’ and ‘Specifications’ sections of this manual. PMC Slot1 is 66/100/133 MHz PCI-X capable. PMC Slot 2 is 33 MHz/32 bit only. The user definable I/O Pins are connected to the rear IO connector on the Cx11, as defined in the PICMG 2.3 specification.

• A 5 V key is mounted on PMC2, for 5 V compatible PMC cards.

• A 3 V key is mounted on PMC1, for 3 V compatible PMC cards.

Electrical characteristics

Table 48: Electrical characteristics

Parameter Comment Value

I3.3V Max. current on 3.3 V Pins 2.1 A

I5V Max. current on 5 V Pins 1.2 A

I+12V Max. current on +12 V Pin 0.1 A

I-12V

Max. current on -12 V Pin 0.1 A

V(I/O)

Voltage for PCI IO 3.3 V or 5 V

P Max. power consumption total 7.5 W a) -12 V must be connected to the backplane b) The appropriate key has to be mounted c) Total power dissipation on the 3.3 V and 5 V rails is 7.5 W

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To mount a PMC board to the Cx11, follow these steps:

1. Remove Cx11 from system housing

2. Remove the front panel cover of the PC slot

3. Take PMC from inside through front panel and push connectors together.

4. Verify correct installation of EMC gasket

5. Fix PMC on host boards with the four screws supplied with the PMC card.

The screws must be locked with Loctite 243 when using the Cx11 in a mechanical rough environment.

Figure 35: Mount PMC board to Cx11

Note:

The PCI specification defines +3.3 V with a margin of ±0.3 V. Some PMC mezzanine modules may not function when the supply voltage is close to the lower margin of 3.3 V -3 % (PICMG 2.0).

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Appendix C Cx11 and Cx9 Compatibility

Chapter Scope

The following sections describes compatibility issues between the Cx11 family and its predecessors CR9, CT9, CP9.

Basic compatibility:

Each Cx11 is as compatible as possible to the Cx9 family. Missing features on the Cx11 are the PS/2 keyboard/mouse support, the parallel port, the floppy interface and the limited number of USB channels.

The Cx11 offers dual core CPU technology with dual channel DRAM up to 4 GB. It has an XMC/PMC slot, an additional Fast Ethernet port on the front, two SATA channels, two USB connectors at the front panel, onboard audio and a superior graphics solution.

The existing transition module CTM12 can be used for the Cx11 if no new functions are required.

Front I/O:

The Cx11 offers a second USB port on the front panel instead of the removed PS/2 connectors. The serial port connector is a RJ45 type on the Cx11. The Cx11 has an optional Fast Ethernet port on its front panel.

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Rear I/O

The following table shows the rear I/O connection of the Cx11 and Cx9 families:

Table 49: Rear I/O pin assignments for Cx9 & Cx11

Cx11

Cx9

√ J5 COM 1 J5 √ √ J5 COM 2 J5 √ √ J5 EIDE J5 √ √ J5 PMC 2 I/O J5 √

√ J4 SATA 1 PS/2 J4 √ √ J4 SATA 2 LPT J4 √ √ J4 VGA 2 Floppy J4 √ √ J4 USB 2,3 J4 √

J4 USB 4,5 J4 √ √ J4 VGA 1 J4 √ √ J4 DVI-I J4 √ √ J4 ICMB J4 √ √ J4 GPIO J4 √ √ J4 Speaker J4 √ √ J4 Reset J4 √ √ J4 Audio J4

√ J3 PMC 1 I/O J3 √ √ J3 Gigabit Ethernet J3 √

√ J2 CPCI Bus J2 √

√ J1 IPMB0 J1 √ √ J1 CPCI Bus J1 √

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GE Fanuc CR11, CP11, CT11 Reference Manual

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