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Intel® Embedded Compact Extended
Form Factor
Proof-of-Concept Board
Based on Intel® 915GM Chipset
User’s Manual
June 2007
Order Number: 310915-002
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Contents INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTELR PRODUCTS. EXCEPT AS PROVIDED IN INTEL’S TERMS AND CONDITIONS OF SALE FOR SUCH PRODUCTS, INTEL ASSUMES NO LIABILITY WHATSOEVER, AND INTEL DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY RELATING TO SALE AND/OR USE OF INTEL PRODUCTS, INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT, OR OTHER INTELLECTUAL PROPERTY RIGHT. Intel Corpor
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Contents Contents 1 Product Overview ............................................................................................................5 1.1 Introduction...........................................................................................................5 1.2 Related Documents...............................................................................................5 1.3 Product Contents ...............................................................................
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Contents Table 18. LVDS Connector (CN6)....................................................................................19 Table 19. Power Connector (CN7) ...................................................................................19 Table 20. LVDS Voltage Connector (CN8) .......................................................................19 Table 21. Serial Port2 Connector (CN9)...........................................................................20 Table 22. LAN Connec
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Product Overview 1 Product Overview 1.1 Introduction The Proof of Concept board utilizes the Intel® Pentium® M Processor Low Voltage 738 or Intel® Celeron® M Processor Ultra Low Voltage 373, and the Intel® 915GM and Intel® I/O Controller Hub 6-M (ICH6-M) chipset. It is a fanless design which provides higher processing capability with excellent power consumption control. It offers a stable and efficient solution for customer who is seeking a trade-off between high performance and low p
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Product Overview 1.3 Product Contents The Intel® ECX Form Factor POC board based on Intel® 915GM chipset is shipped with the following peripherals: One POC board with two heat sinks – one for the CPU and one for the GMCH 15 Jumper caps 1.4 Proof-of-Concept Board Features The proof-of-concept board features are summarized as below: System: CPU (Onboard 479-ball µFCBGA) supported: - Intel® Pentium® M Processor Low Voltage 738 or - Intel® Celeron® M Processor Ultra Low Voltage 3
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Product Overview Display: Analog CRT DAC interface support - 24-bit RAMDAC support (8-bit for each RGB signal DAC) - Resolution up to 2048 x 1536 at 75Hz - DDC2B compliant Analog TV-Out interface support - On board S-Video 4-pin mini DIN connector Dedicated Local Flat Panel(LFP) LVDS interface - Compliant with ANSI/TIA/EIA-644-2001 spec - Supports 25 to 112 MHz single/dual channel LVDS interface with Spread Spectrum Clocking (SSC) - Support TFT panel type with maximum pixel forma
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Product Overview 1.5 Intel® ECX Form Factor POC Board Based on Intel® 915GM Chipset Block Diagram Figure 1. Block Diagram ® ® Intel Pentium M LV 738 CK-410 DC/DC IMVP IV or ® ® Intel Celeron M ULV 373 CK-SSCD DC-DC GMCH, DDR2 Processor 479 uPCBCA FSB 400 LVDS DDR2 ® DDR2 400 Intel 915GM SO-DIMM VGA GMCH SDV0 TVOUT 1257 FCBCA DMI SATA x 1 PCI-E Extension ® Intel 82801FBM Slot PATA, CF ICH6-M ® Intel 82551 QM/ USB 2.0 33MHz PCI ® Intel 82541 ER RJ-45 X 4 1257 FCBCA 10/100/1000 LPC AC’97
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Installation Guide for POC Board 2 Installation Guide for POC Board 2.1 Before You Begin Table 2 shows the additional hardware that may be needed to set up the board. Table 2. Additional Hardware Component Description VGA Monitor Standard VGA or greater resolution monitor. Keyboard Keyboard with a PS/2 connector or adapter. Mouse Mouse with a PS/2 connector or adapter. IDE Devices Up to two IDE devices can be connected to the POC board. One cable is included in this kit. The cable ac
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Installation Guide for POC Board 2. Verify contents. Inspect the contents of your kit, and ensure that everything listed in Section 1.3 is included. Check for damage that may have occurred during shipment. 3. Check jumper settings. Verify that the following jumpers are set in their default state (see Table 3). Table 3. Jumper Settings Jumper Function Default Setting J1 Compact Flash Power Select 3.3 V : Short 1-2 J2 LVDS Voltage select 3.3 V : Short 1-2 J3 COM1 Mode Select RS-2
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Installation Guide for POC Board Figure 2. Assembly board, Top View Figure 3. Assembly board, Bottom View
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Installation Guide for POC Board 6. Install storage devices. There is one IDE and one SATA connector on the POC board, which supports up to 3 hard drives (two PATA IDE devices—a master and a slave and one SATA IDE device. Note: Master/slave settings are determined by a jumper on each IDE device. Consult the device label/documentation to verify that the jumper is set correctly for the configuration you choose. A CD-ROM drive or additional hard drive may be installed as a primary slav
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Installation Guide for POC Board Notes: Powering up without all components installed correctly could lead to a power-up failure that could damage that board. Do not power up the board until the source of any loose components is fixed and the component has been replaced on the board.
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Connectors and Jumpers 3 Connectors and Jumpers This section describes the placement of the connectors as well as jumper settings on the board. Figure 5. Connectors and Jumpers
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Connectors and Jumpers Figure 6. Solder Side 3.1 List of Jumpers Table 4 to Table 9 must be used in setting the jumpers on the POC board. These tables give details about the jumpers shown in Figure 5 and Figure 6. The jumpers allow configuring the system to user’s application. The table below shows the function of each of the board’s jumpers: Table 4. Jumpers Label Function J1 Compact Flash Power Select J2 LVDS Voltage select J3 COM1 Mode Select CN15 Pin 1 J4 COM1 Mode Select
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Connectors and Jumpers Table 5. Compact Flash Power Select (JP1) Option JP1 3.3 V (default) Short 1-2 5 V Short 2-3 Table 6. LVDS Voltage select (JP2) Option JP2 3.3 V (default) Short 1-2 5 V Short 2-3 Table 7. COM1 Mode Select for RS-232/422/485 (JP3/JP6/JP7) Option JP3 JP6 JP7 RS232 (default) Short 3-5, 4-6 Short 3-5, 4-6 Short 1-2 RS422 Short 1-3, 2-4 Short 1-3, 2-4 Short 3-4, 7-8 RS485 Short 1-3, 2-4 Short 1-3, 2-4 Short 5-6, 7-8 Table 8. COM1 Mode Select (JP4) Optio
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Connectors and Jumpers 3.2 List of Connectors The board has a number of connectors configuring the system to user’s application. The table below shows the function of each board’s connectors: Table 12. Connectors Label Function CN1 Digital I/O Connector CN2 Front Panel Bezel Connector CN3 Primary IDE Hard Drive Connector CN4 Parallel Port Connector CN5 USB Port2 & Port3 Connector CN6 LVDS Connector CN7 Power Connector CN8 LVDS Voltage Connector CN9 Serial Port2 Connector CN10 LAN
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Connectors and Jumpers Table 15. Primary IDE Hard Drive Connector (CN3) Pin Signal Pin Signal 1 PRI_IDERST# 2 GND 3 PDD7 4 PDD8 5 PDD6 6 PDD9 7 PDD5 8 PDD10 9 PDD4 10 PDD11 11 PDD3 12 PDD12 13 PDD2 14 PDD13 15 PDD1 16 PDD14 17 PDD0 18 PDD15 19 GND 20 NC 21 PDREQ 22 GND 23 PDIOW# 24 GND 25 PDIOR# 26 GND 27 PIORDY 28 GND 29 PDDACK# 30 GND 31 IRQ14 32 NC 33 PDA1 34 P66DET 35 PDA0 36 PDA2 37 PDCS#1 38 PDCS#3 39 IDEACTP# 40 GND 41 +5V 42 +5V 43 GND 44 NC Table 16. Parallel
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Connectors and Jumpers Table 17. USB Port2 & Port3 Connector (CN5) Pin Signal Pin Signal 1 VCC 2 VCC 3 D0- 4 D1- 5 D0+ 6 D1+ 7 GND 8 GND 9 GND 10 GND Table 18. LVDS Connector (CN6) Pin Signal Pin Signal 1 VCCM 2 VCCM 3 VCCM 4 VCCM 5 VCCM 6 VCCM 7 NC 8 NC 9 GND 10 GND 11 LVDSB_D3- 12 LVDSB_D0- 13 LVDSB_D3+ 14 LVDSB_D0+ 15 GND 16 GND 17 LVDSB_CLK- 18 LVDSB_D1- 19 LVDSB_CLK+ 20 LVDSB_D1+ 21 GND 22 GND 23 LVDSA_D0- 24 LVDSB_D2- 25 LVDSA_D0+ 26 LVDSB_D2+ 27 GND 28 GND 29 LVDS
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Connectors and Jumpers Table 21. Serial Port2 Connector (CN9) Pin Signal Pin Signal 1 Data Carrier Detect (DCD) 2 Data Set Ready (DSR) 3 Receive Data (RXD) 4 Request to Send (RST) 5 Transmit Data (TXD) 6 Clear to Send (CTS) 7 Data Terminal Ready (DTR) 8 Ring Indicator (RI) 9 Ground (GND) 10 NC Table 22. LAN Connector (CN10) Pin Signal Pin Signal 1 TX+ 2 TX- 3 RX+ 4 RJ45 Termination 5 RJ45 Termination 6 RX- 7 RJ45 Termination 8 RJ45 Termination Table 23. Audio Connector (CN11)