cPCI-3615 Series 3U CompactPCI® Dual-Core Intel® Atom™ Processor Blade User’s Manual Manual Rev.: 2.01 Revision Date: June 13, 2012 Part No: 50-15077-1010 Advance Technologies; Automate the World.
Revision History Revision Release Date Description of Change(s) 2.00 2011/04/29 Initial release 2.
cPCI-3615 Preface Copyright 2011-12 ADLINK Technology Inc. This document contains proprietary information protected by copyright. All rights are reserved. No part of this manual may be reproduced by any mechanical, electronic, or other means in any form without prior written permission of the manufacturer.
Using this Manual Audience and Scope The cPCI-3615 User’s Manual is intended for hardware technicians and systems operators with knowledge of installing, configuring and operating CompactPCI systems. Manual Organization This manual is organized as follows: Chapter 1, Introduction: Introduces the cPCI-3615, its features, block diagrams, and package contents. Chapter 2, Specifications: Presents detailed specification information, power consumption, and technical drawings.
cPCI-3615 Conventions Take note of the following conventions used throughout this manual to make sure that users perform certain tasks and instructions properly. Additional information, aids, and tips that help users perform tasks. NOTE: CAUTION: WARNING: Preface Information to prevent minor physical injury, component damage, data loss, and/or program corruption when trying to complete a task.
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cPCI-3615 Table of Contents Revision History...................................................................... ii Preface .................................................................................... iii List of Figures ........................................................................ xi List of Tables........................................................................ xiii 1 Introduction ........................................................................ 1 1.1 Overview.........
4.5 cPCI-3615 Series Front Panel Layout ............................... 23 4.6 cPCI-R3610T RTM Board Layout ...................................... 25 4.7 cPCI-R3610(T) RTM Front Panel ...................................... 26 4.8 Connector Pin Assignments............................................... 27 4.9 Switch and Jumper Settings .............................................. 41 5 Getting Started .................................................................. 47 5.1 CPU and Heatsink .....
cPCI-3615 8.5 Boot Settings ..................................................................... 90 8.5.1 Boot Settings Configuration ........................................... 91 8.6 Security Setup ................................................................... 92 8.7 Chipset Setup .................................................................... 94 8.8 Exit Menu........................................................................... 95 Important Safety Instructions ...................
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cPCI-3615 List of Figures Figure 1-1: Figure 4-1: Figure 4-2: Figure 4-3: Figure 4-4: Figure 4-5: Figure 4-6: Figure 4-7: cPCI-3615 Series Functional Block Diagram................... 3 cPCI-3615 Blade Board Layout ..................................... 19 cPCI-3615 Assembly Layout ......................................... 20 cPCI-3615D Board Layout............................................. 21 cPCI-3615, cPCI-3615D Front Panel Layout................. 23 cPCI-3615P Front Panel Layout .....................
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cPCI-3615 List of Tables Table 4-1: Table 4-2: Table 4-3: Table 4-4: Table 4-5: Table 4-6: Table 4-7: Table 4-8: Table 4-9: Table 4-10: Table 4-11: Table 4-12: Table 4-13: Table 4-14: Table 4-15: Table 4-16: Table 4-17: Table 4-18: Table 4-19: Table 4-20: Table 4-21: Table 4-22: Table 4-23: Table 4-24: List of Tables cPCI-3615 Front Panel System LED Descriptions ........ 24 USB Connector Pin Definition........................................ 27 VGA Connector Pin Definition ...............................
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cPCI-3615 1 Introduction 1.1 Overview The cPCI-3615 Series is a 3U CompactPCI single board computer in single-slot (4HP), dual-slot (8HP) or triple-slot (12HP) width form factor featuring the Intel® Atom™ N455 or D525 processor with ICH8M I/O Controller Hub. The cPCI-3615 provides single channel DDR3-800 soldered onboard memory up to 4GB, integrated graphics on the CPU, IDE CompactFlash slot, and 2.5” SATA HDD (cPCI-3615D/P) and one PMC/XMC site (cPCI-3615P).
1.2 Features 2 X 3U CompactPCI blade in 4HP, 8HP or 12HP width form factor X Supports Dual-Core or Single-Core Intel® Atom™ processor, up to 1.
cPCI-3615 1.3 Block Diagram Intel® Atom™ Processor RGB PMC F R O N T 32b/66M PCI Soldered Up to 4GB N455/D525 DB-3UMC XMC DDR3-800 PCIe x1 RGB PCIe-to-PCI Bridge PCIe x1 DMI IDE CF DB-3610L2 Line-in, Line-out Codec J2 HD PCIe x1, GPIO, SMBus USB 3/4 P A N E L 2.
1.4 Product List Products in the cPCI-3615 Series include: Processor Blade X cPCI-3615: 4HP width (single-slot) 3U CompactPCI featuring Atom™ N455 or D525 processor; 1GB, 2GB or 4GB memory soldered onboard; CompactFlash slot; 2x USB; 2x GbE; VGA. X cPCI-3615D: 8HP width (dual-slot) 3U CompactPCI featuring Atom™ N455 or D525 processor; 1GB, 2GB or 4GB memory soldered onboard; CompactFlash slot; 2x USB; 2x GbE; VGA.
cPCI-3615 1.5 Package Contents The cPCI-3615 is packaged with the following components. If any of the items on the contents list are missing or damaged, retain the shipping carton and packing material and contact the dealer for inspection. Please obtain authorization before returning any product to ADLINK. The packing contents of the cPCI-3615 Series are non-standard configurations and may vary depending on customer requests.
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cPCI-3615 2 Specifications 2.1 cPCI-3615 Specifications CompactPCI® Standards • PICMG® 2.0 CompactPCI® Rev. 3.0 • PICMG® 2.1 Hot Swap Specification Rev.2.0 Mechanical • Standard 3U CompactPCI® • Board size: 100mm x 160mm • Single-slot (4HP, 20.32mm); Dual-slot (8HP, 40.64mm), Triple-slot (12HP, 60.96mm) width • CompactPCI® connectors with J1, J2 Processor • µFC-BGA Intel® Atom™ Processor N455 1.66 GHz, 512KB L2 cache, TDP 6.5W • µFC-BGA dual-core Intel® Atom™ Processor D525 1.
Faceplate I/O 4HP (cPCI-3615): • 2x USB 2.0 ports • 2x 10/100/1000BASE-T Ethernet ports • Analog DB-15 VGA port 8HP (cPCI-3615D): • 4x USB 2.0 ports • 2x 10/100/1000BASE-T Ethernet ports • Analog DB-15 VGA port • DB-9 RS-232/422/485/485+ port • PS/2 Keyboard/ Mouse combo port • Line-in and Line-out ports cPCI-R3610(T): • 2x USB 2.
cPCI-3615 2.2 I/O Connectivity Table Function cPCI-3615 (4HP) cPCI-3615D (8HP) cPCI-3615P (12HP) cPCI-R3610(T) Front I/O Onboard Front I/O Onboard Front I/O Onboard Front I/O Onboard Gigabit Ethernet Y x2 COM USB 2.0 VGA Y x2 Y – Y x2 – Y x2 – Y x2(1) – – Y – Y – Y x2 – – Y x4 – Y x4 – Y – Y(1) – Y – Y – – – Y (2.5” HD) – Y (2.
2.3 Power Requirements In order to guarantee stable operation of the system, it is recommended that significantly more power be provided than required. An industrial power supply unit should be able to provide at least twice as much power as the entire system requires of each voltage. An ATX power supply unit should be able to provide at least three times as much power as the entire system requires of each voltage. The tolerance of the voltage lines described in the CompactPCI specification (PICMG 2.0 R3.
cPCI-3615 Power Consumption This section provides information on the power consumption of cPCI-3615 Series when using Intel® Atom™ processors with 1GB soldered DDR2 memory and onboard 80GB SATA hard drive. The cPCI-3615 is powered by 5V only. Power consumption at 100% CPU usage was measured using PassMark BurnInTest 6.0. Intel® Atom™ Processor N455 OS/Mode Current 5V Total Power DOS/Idle mode 2.94A 14.7W Linux/Idle mode 2.54A 12.7W Windows XP/ Idle mode 2.95A 14.
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cPCI-3615 3 Functional Description The following sections describe the cPCI-3615 Series features and functions. 3.1 Processor The cPCI-3615 Series supports the Intel® Atom™ Processor N400, D400 and D500 Series processors built on 45-nm Hi-K process technology. The processor is designed for a two-chip platform as opposed to the traditional three-chip platforms (processor, GMCH, and ICH).
X Micro-FCBGA8 packaging technologies X Thermal management support via Intel® Thermal Monitor 1 (TM1) and Intel® Thermal Monitor 2 (TM2) X Enhanced Intel® SpeedStep Technology (EIST) X Support L2 dynamic cache sizing The following list outlines the key features of system memory support: X One channel DDR3 memory X Memory DDR3 data transfer rates of 800 MT/s X Non-ECC, unbuffered DDR3 X 512Mb.
cPCI-3615 The following list outlines the key features of system memory support: X One channel DDR3 memory X Memory DDR3 data transfer rates of 800 MT/s X Non-ECC, unbuffered DDR3 X I/O Voltage of 1.8V for DDR3 X 512Mb. 1-Gb,and 2-Gb DDR3 DRAM technologies supported The following list outlines the key graphics features: X The integrated graphics controller contains a refresh of the 3rd generation graphics core X Intel® Dynamic Video Memory Technology 4.
3.2 Chipset Intel® ICH8 Mobile I/O Controller Hub The ICH8M provides extensive I/O support. Functions and capabilities include: X Provides 6 PCI Expressx1 ports, supporting the PCI Express Base Specification, Revision 1.1. Each Root Port supports 2.5GB/s bandwidth in each direction. The cPCI-3615 utilizes two PCI Express x1 ports for two Gigabit Ethernet controllers; routes two PCI Express x1 ports to the board-to-board connector and one PCI Express x1 port to the J2 connector for expansion capability.
cPCI-3615 3.4 Battery The cPCI-3615 is provided with a 3.0V “coin cell” lithium battery for the Real Time Clock (RTC). The battery socket is equipped on the DB-3610CF daughter board. The lithium battery must be replaced with an identical battery or a battery type recommended by the manufacturer. The cPCI-3615 is equipped with a Rayovac BR2032 by default, and can be optionally equipped with a Gold Capacitor. 3.5 PMC/XMC The cPCI-3615P Series supports one PMC or XMC site for front panel I/O expansion.
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cPCI-3615 4 Board Interfaces This chapter illustrates the board layout, connector pin assignments, and jumper settings to familiarize users with the cPCI-3615 Series. 4.1 cPCI-3615 Blade Board Layout RAM LAN LAN CN2 J2 LAN CPU SW1 VGA SB CN4 USB0 J1 USB1 CPU Intel® Atom processor USB0/1 USB 2.
4.2 cPCI-3615 Blade Assembly Layout This section describes the final assembly layout of the single slot cPCI-3615 (4HP).
cPCI-3615 4.3 cPCI-3615D Blade Assembly Layout The dual-slot width cPCI-3615D (8HP) is comprised of the cPCI-3615 single-slot main board and the DB-3610L2 riser card to expand I/O connectivity with PS/2, COM, 2x USB, Line-in, and Line-out ports. DB-3610L2 COM1 USB2 SATA0 USB3 2.
4.4 cPCI-3615P Blade Assembly Layout The triple-slot width cPCI-3615P (12HP) is comprised of the cPCI-3615D dual-slot assembly and the DB-3UMC riser card to provide a PMC/XMC slot for front I/O expansion.
cPCI-3615 4.5 cPCI-3615 Series Front Panel Layout cPCI-3615 GbE 1/2 1 2 WDT LED VGA USB 2.0 Reset button Power LED cPCI-3615D Line-in USB 2.0 PS/2 KB/MS COM1 1 Line-out 2 WDT LED VGA USB 2.
cPCI-3615P Line-in USB 2.0 PS/2 KB/MS COM1 Line-out PMC/XMC WDT LED VGA USB 2.0 Reset button Power LED Figure 4-5: cPCI-3615P Front Panel Layout Optional 2-slot version with PMC/XMC as shown below is available by request. Please contact your ADLINK sales representative.
cPCI-3615 4.
4.
cPCI-3615 4.8 Connector Pin Assignments USB Connectors Pin # Signal Name 1 Vcc 2 UV0- 3 UV0+ 4 GND Table 4-2: USB Connector Pin Definition VGA Connector (DB-15) Signal Name Pin # Pin # Signal Name Red 1 2 Green Blue 3 4 N.C. GND 5 6 GND GND 7 8 GND +5V. 9 10 GND N.C.
Gigabit Ethernet Connectors (RJ-45) Pin # 10BASE-T/ 100BASE-TX 1000BASE-T 1 TX+ BI_DA+ 2 TX- BI_DA- 3 RX+ BI_DB+ 4 — BI_DC+ 5 — BI_DC- 6 RX- BI_DB- 7 — BI_DD+ 8 — BI_DD- Table 4-4: GbE Connector Pin Definitions 1 8 Status Speed LED (Green/Amber) Activity LED (Yellow) Network link is not established or system powered off OFF OFF OFF ON Active OFF Blinking Link Green ON Active Green Blinking Link Amber ON Active Amber Blinking 10 Mbps 100 Mbps 1000 Mbps Lin
cPCI-3615 PS/2 Keyboard/Mouse Connector Pin # Signal Function 1 KBDATA Keyboard Data 2 MSDATA Mouse Data 3 GND Ground 4 +5V Power 5 KBCLK Keyboard Clock 6 MSCLK Mouse Clock Table 4-6: PS/2 Keyboard/Mouse Connector Pin Definition Serial Port DB-9 Connector (COM1) Pin # RS-232 RS-422 RS-485(+) 1 DCD-L TXD- TXD- 2 RXD TXD+ TXD+ 3 TXD RXD+ — 4 DTR-L RXD- — 5 GND GND GND 6 DSR-L — — 7 RTS-L — — 8 CTS-L — — 9 RI-L — — Table 4-7: DB-9 Serial Port Conne
cPCI-R3610(T) Serial Port Pin Header (COM2/3) Pin # RS-232 RS-422 RS-485(+) 1 DCD-L TXD- TXD- 2 DSR-L — — 3 RXD TXD+ TXD+ 4 RTS-L — — 5 TXD RXD+ — 6 CTS-L — — 7 DTR-L RXD- — 8 RI-L — — 9 GND GND GND 10 — — — 1 2 9 10 Table 4-8: cPCI-R3610(T) Serial Port Pin Header Definition Serial ATA Connectors on RTM Pin # Signal 1 2 3 4 5 6 7 GND TX+ TXGND RXRX+ GND 1 7 Table 4-9: Serial ATA Connector on RTM Pin Definition 30 Board Interfaces
cPCI-3615 Serial ATA Connector on DB-3610L2 Pin # Signal S1 GND S2 TX+ S3 TX- S4 GND S5 RX- S6 RX+ S7 GND P1 NC P2 NC P3 NC P4 GND P5 GND P6 GND P7 5V P8 5V P9 5V P10 GND P11 NC P12 GND P13~P15 NC S1 Signal S7 P1 Power P15 Table 4-10: Serial ATA Connector on DB-3610L2 Pin Definition Board Interfaces 31
CompactFlash Connector on DB-3610CF Signal Name Pin# Pin# Signal Name GND 1 26 GND DD3 2 27 DD11 DD4 3 28 DD12 DD5 4 29 DD13 DD6 5 30 DD14 DD7 6 31 DD15 CS1J 7 32 CS3J GND 8 33 GND GND 9 34 SDIORJ GND 10 35 SDIOWJ GND 11 36 5V GND 12 37 IRQ15 5V 13 38 5V GND 14 39 PCSEL GND 15 40 NC GND 16 41 BRSTDRVJ GND 17 42 SDIORDY DA2 18 43 NC DA1 19 44 SDACKJ DA0 20 45 IDEACTJ DD0 21 46 DIAG DD1 22 47 DD8 DD2 23 48 DD9 IOIS16J
cPCI-3615 DB-3610CF Connector (CN2) Signal Name Pin # Pin # Signal Name IDE_D7 1 2 IDE_D8 IDE_D6 3 4 IDE_D9 IDE_D5 5 6 IDE_D10 IDE_D4 7 8 IDE_D11 IDE_D3 9 10 IDE_D12 IDE_D2 11 12 IDE_D13 IDE_D1 13 14 IDE_D14 IDE_D0 15 16 IDE_D15 GND 17 18 GND IDE_REQ-L 19 20 IDE_66DECT IDE_IOW-L 21 22 IDE_RST-L IDE_IOR-L 23 24 SPKR IDE_IORDY 25 26 SIO_SPKR IDE_ACK-L 27 28 GND IDE_IRQ 29 30 VCC_RTC IDE_A1 31 32 GND IDE_A0 33 34 USB4-P IDE_A2 35 36 US
DB-3610L2 Connector (CN4) Signal Name Pin # Pin # Signal Name USB2-N 1 2 -12V USB2-P 3 4 +12 GND 5 6 GND USB3-N 7 8 HDA_SDIN0 USB3-P 9 10 HDA_R_SDOUT GND 11 12 GND SATA_ICH_RX-N0 13 14 HDA_R_SYNC SATA_ICH_RX-P0 15 16 HDA_R_BIT_CLK GND 17 18 GND SATA_TX-P0 19 20 CK_L2_PCIE1-P SATA_TX-N0 21 22 CK_L2_PCIE1-N GND 23 24 GND PCIE_TXN5 25 26 CK_L2_PCIE2-P PCIE_TXP5 27 28 CK_L2_PCIE2-N GND 29 30 GND PCIE_RXN5 31 32 HDA_R_RST-L PCIE_RXP5 33 34 SP
cPCI-3615 DB-3UMC Connector (CN7) Signal Name Pin # Pin # Signal Name NC 1 2 -12V NC 3 4 +12V GND 5 6 GND NC 7 8 NC NC 9 10 NC GND 11 12 GND NC 13 14 NC NC 15 16 NC GND 17 18 GND NC 19 20 CK_PCIE1_P NC 21 22 CK_PCIE1_N GND 23 24 GND PCIE_TXN2 25 26 CK_PCIE2_P PCIE_TXP2 27 28 CK_PCIE2_N GND 29 30 GND PCIE_R_RXN2 31 32 NC PCIE_R_RXP2 33 34 NC GND 35 36 PCIE_RST# PCIE_R_RXN1 37 38 NC PCIE_R_RXP1 39 40 NC GND 41 42 NC PCIE_
PMC Connector (JN1/2) Pin# JN1 Signal JN2 Signal 1 PMC_TCK P12V 2 N12V PMC_TRST-L 3 GND PMC_TMS 4 PCIX_INTA-L NC (PMC_TDO) 5 PCIX_INTB-L PMC_TDI 6 PCIX_INTC-L GND 7 PMC_MOD-L1 GND 8 P5V NC 9 PCIX_INTD-L NC 10 NC NC 11 GND PMC_MOD-L2 12 P3V3_PMCAUX P3V3 13 CLK66_PCIX_PMC PMC_RST-L 14 GND PMC_MOD-L3 15 GND P3V3 16 PCIX_GNT-L0 PMC_MOD-L4 17 PCIX_REQ-L0 PMC_PME-L 18 P5V GND 19 PMC_VIO PCIX_AD30 20 PCIX_AD31 PCIX_AD29 21 PCIX_AD28 GND 22 PCIX_AD2
cPCI-3615 Pin# JN1 Signal JN2 Signal 33 PCIX_FRAME-L GND 34 GND NC 35 GND PCIX_TRDY-L 36 PCIX_IRDY-L P3V3 37 PCIX_DEVSEL-L GND 38 P5V PCIX_STOP-L 39 PCIX_PCIXCAP PCIX_PERR-L 40 PCIX_LOCK-L GND 41 NC P3V3 42 NC PCIX_SERR-L 43 PCIX_PAR PCIX_CBE-L1 44 GND GND 45 PMC_VIO PCIX_AD14 46 PCIX_AD15 PCIX_AD13 47 PCIX_AD12 PCIX_M66EN 48 PCIX_AD11 PCIX_AD10 49 PCIX_AD9 PCIX_AD8 50 P5V P3V3 51 GND PCIX_AD7 52 PCIX_CBE-L0 NC 53 PCIX_AD6 P3V3 54 PCIX_AD5
XMC Connector (JN3) Pin# A B C D E F 1 RXP RXN 3.3V NC NC VPWR 2 GND GND Not used GND GND PCIE_RST-L 3 NC NC 3.3V NC NC VPWR 4 GND GND Not used GND GND Not used 5 NC NC 3.3V NC NC VPWR 6 GND GND Not used GND GND +12V 7 NC NC 3.3V NC NC VPWR 8 GND GND Not used GND GND -12V 9 NC NC Not used NC NC VPWR 10 GND GND Not used GND GND GA0 11 TXP TXN Not used NC NC VPWR 12 GND GND GA1 GND GND Not used 13 NC NC 3.
cPCI-3615 CompactPCI J1 Connector Pin Z A B C D E F 25 GND +5V REQ64# ENUM# +3.
CompactPCI J2 Connector Pin Z A B C D E F 22 GND GA4 GA3 GA2 GA1 GA0 GND 21 GND CLK6 GND LAN1_TXDP0 LAN1_TXDN0 CK_ PCIE-N GND 20 GND CLK5 GND LAN1_TXDP2 GND CK_ PCIE-P GND 19 GND GND GND LAN1_TXDN2 LAN1_TXDP1 LAN1_TXDN1 GND 18 GND PCIE_TXP2 LAN1_TXDP3 LAN1_TXDN3 GND P3V3 GND 17 GND PCIE_TXN2 GND PRSTJ REQ6# GNT6# GND 16 GND GPIO0 PCIE_ RXP2 NC GND PCIE_RST# GND 15 GND RGB_BLUE PCIE_ RXN2 NC REQ5# GNT5# GND 14 GND GPIO1 NC USB_5_OC#
cPCI-3615 4.9 Switch and Jumper Settings Clear CMOS Switch (SW4) The cPCI-3615 comes with a Clear CMOS switch to reset the CMOS values to default. The switch is located on solder side of the board, under the "CE" logo. Press the switch to clear the CMOS and reset the values to default. VGA/GPIO Mode Switches (SW1, SW3) The VGA and GPIO 4~7 signals to J2 share the same pins and are selected by switch settings.
COM1 Mode Selection Switches (SW1~SW4) These switches select COM1 (cPCI-3615D/P front panel) to be RS-232 full modem, RS-422, RS-485, or RS-485+ half-duplex mode. Switches SW1~SW4 are located on the top edge of the DB-3610L2 board. RS-232 full modem is set by default.
cPCI-3615 COM2 Mode Selection Switches on RTM (SW1~SW4) These switches on the RTM select COM2 to be RS-232 full modem, RS-422, RS-485, or RS-485+ half-duplex mode. RS-232 full modem is set by default. See “cPCI-R3610T RTM Board Layout” on page 25 for switch locations.
COM3 Mode Selection Switches on RTM (SW5~SW8) These switches on the RTM select COM3 to be RS-232 full modem, RS-422, RS-485, or RS-485+ half-duplex mode. RS-232 full modem is set by default. See “cPCI-R3610T RTM Board Layout” on page 25 for switch locations.
cPCI-3615 XMC VPWR Select Jumper on DB-3UMC (JPX1) This jumper is located on the DB-3UMC board near JN1/2 and selects the XMC VPWR setting. 5V is set by default. Mode Connection +5V (Default) 1–2 +12V 2–3 JPX1 Table 4-23: XMC VPWR Select Jumper Settings PMC V(I/O) Select Jumper on DB-3UMC (JPX2) This jumper is located on the DB-3UMC board near JN1/2 and selects the PMC V(I/O) setting. 3.3V is set by default. Mode Connection +5V 1–2 +3.
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cPCI-3615 5 Getting Started This chapter describes the installation procedures for the cPCI-3615 and rear transition module: X 2.5” SATA Hard Drive Disk installation X PCI Mezzanine Card installation X cPCI-3615 installation to chassis X RTM installation to chassis 5.1 CPU and Heatsink The cPCI-3615 Series come with a BGA CPU soldered onboard and heatsink pre-installed. Removal of heatsink/CPU by users is not recommended. Please contact your ADLINK service representative for assistance.
5.2 Hard Drive Installation The cPCI-3615D/P 2/3 slot versions provide space to install a slim type 2.5” Serial-ATA hard drive. Installing a Hard Drive - cPCI-3615D 1. Attach the mounting brackets to the hard drive with four M3 screws provided. 2. Align the hard drive assemby with the mounting points on the cPCI-3615D and insert it into the onboard Serial ATA connector until it is properly seated.
cPCI-3615 3. Secure the hard drive assemby to the cPCI-3615D using four M2.5 screws provided.
Installing a Hard Drive - cPCI-3615P 1. To install a hard drive on the cPCI-3615P, the front panel and DB-3UMC daughter board must first be disassembled. Remove the front panel by unscrewing the four screws securing it to the PCB assembly (arrows), the four standoffs securing the VGA and COM connectors (circles), and one screw under the ejector handle.
cPCI-3615 2. Detach the faceplate from the PCB assembly. 3. Loosen the five screws securing DB-3UMC riser card to the PCB assembly.
4. Remove the DB-3UMC riser card, taking care to lift it from the board-to-board connector indicated below. 5. Attach the mounting brackets to the hard drive with four M3 screws provided.
cPCI-3615 6. Align the hard drive assemby with the mounting points on the cPCI-3615P and insert it into the onboard Serial ATA connector until it is properly seated. 7. Secure the hard drive assemby to the cPCI-3615P using four M2.5 screws provided.
8. Re-attach the DB-3UMC riser card to the PCB assembly, taking care to press down firmly on the board-to-board connector. 9. Re-attach the faceplate to the cPCI-3615P by fastening the four screws and four standoffs removed in Step 1 above.
cPCI-3615 5.3 PMC/XMC Card Installation The cPCI-3615P provides one PMC/XMC slot designed to support 3.3V or 5V V(I/O) (default 3.3V) and 5V or 12V VPWR (default 5V). Before you install the PMC/XMC card on the cPCI-3615P, please make sure that the PMC V(I/O) jumper JPX2 and XMC VPWR jumper JPX1 have been correctly set (see page 45). 1. To install a PMC/XMC card on the cPCI-3615P, the front panel and DB-3UMC daughter board must first be disassembled.
2. Remove the DB-3UMC daughter board by unscrewing the four screws as shown below. 3.3V Key This page intentionally left blank. 3. There is a 3.3V key on board by default, if the PMC/XMC card you wish to install is 5V signaling, please remove the key and set the PMC V(I/O) jumper JPX2 to the 5V setting. 4. Align the male connectors of the PMC/XMC card (component-side down) to the female connectors of the DB-3UMC and press down.
cPCI-3615 5. Secure the PMC/XMC card to the DB-3UMC by attaching four screws (provided with the card) from the underside of the daughter board. 6. Align the male board-to-board connector (CN1) of the PMC/XMC assembly to the female board to board connector (CN7) of the DB-3610L2 riser card and press down.
7. Secure the PMC/XMC assembly to the DB-3610L2 riser card using the four screws removed in Step 2 above. 8. Remove the PMC filler faceplate from the front panel. 9. Assemble the front panel to the cPCI-3615P by reversing Step 1.
cPCI-3615 5.4 Removing the DB-3610CF Daughter Board To access SW1 (VGA/GPIO Mode Switch) which is under the DB-3610CF Daughter Board, follow the steps below (see “cPCI-3615 Blade Assembly Layout” on page 20 for DB-3610CF location). 1. Remove the front panel from the blade assembly by unscrewing the screws and standoffs as shown (dual-slot version shown). 2. Remove the Layer 2 daughter board by unscrewing the five screws as shown below (not required for single-slot version).
3. Remove the screw securing the DB-3610CF from the component side of the blade as shown. 4. Remove the screw securing the DB-3610CF from the solder side of the blade as shown. 5. Remove the DB-3610CF from the blade assembly.
cPCI-3615 6. Remove the six screws securing the heatsink to the blade assembly 7. Remove the heatsink to access SW1. To reassemble the cPCI-3615 blade, reverse Steps 1~7 above.
5.5 Installing the cPCI-3615 to the Chassis The cPCI-3615 may only be installed in a system slot of a 3U CompactPCI chassis. These instructions are for reference only. Refer to the user guide that comes with the chassis for more information. 1. Be sure to select the correct slot depending on the operational purpose of the module. The system power may now be powered on or off. 2. Remove the blank face cover from the selected slot, if necessary. 3.
cPCI-3615 5.6 RTM Installation - cPCI-R3610(T) The installation and removal procedures for a RTM are the same as those for CompactPCI boards. Because they are shorter than front boards, pay careful attention when inserting or removing RTMs. Refer to previous sections for peripheral connectivity of all I/O ports on the RTM. When installing the cPCI-3615 Series and related RTMs, make sure the RTM is the correct matching model.
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cPCI-3615 6 Driver Installation The cPCI-3615 drivers are available from the ADLINK All-In-One CD at X:\cPCI\cPCI-3615\, or from the ADLINK website (http://www.adlinktech.com). This section describes the driver installation procedures for Windows® 7. 1. Install the Windows operating system before installing any driver. Most standard I/O device drivers are installed during Windows installation. 2. Install the chipset driver by running the program ...\Chipset\Intel_INF_Update_Utility_All_WinOS v9.1.1.1023.
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cPCI-3615 7 Utilities 7.1 Watchdog Timer This section describes the operation of the cPCI-3615’s watchdog timer (WDT). The primary function of the WDT is to monitor the cPCI-3615's operation and to reset the system if a software application fails to function as programmed.
Sample Code The sample program written in C shown below offers an interactive way to test the Watchdog Timer under DOS. #include #include
cPCI-3615 outportb(IT8783_ioPort, 0x02); outportb(IT8783_ioPort+1, 0x02); } //Check chip void Get_IT8783_ID(unsigned int &ID1, unsigned int &ID2) { outportb(IT8783_ioPort, 0x20); ID1 = inportb(IT8783_ioPort+1); outportb(IT8783_ioPort, 0x21); ID2 = inportb(IT8783_ioPort+1); } //WDT and LED program void IT8783_3_WDTRun(unsigned int count_value, unsigned int PLEDflag) //for cPCI-3615 { unsigned long tempCount; unsigned int registerValue; outportb(IT8783_ioPort, 0x07); outportb(IT8783_ioPort+1, 0x07);// Device
outportb(IT8783_ioPort+1, registerValue); outportb(IT8783_ioPort, 0xCD); registerValue = inportb(IT8783_ioPort + 1); registerValue |= 0x01; // set GP60 is output outportb(IT8783_ioPort+1, registerValue); outportb(IT8783_ioPort, 0xf8); outportb(IT8783_ioPort+1, 0x30);// PLED mapping to GP60 outportb(IT8783_ioPort, 0xf9); registerValue = inportb(IT8783_ioPort + 1); registerValue |= 0x02; registerValue &= 0xfb; outportb(IT8783_ioPort+1, registerValue); } outportb(IT8783_ioPort, 0x71); registerValue = inportb(I
cPCI-3615 tempCount++; if(tempCount > 65535) tempCount = 65535; printf("WDT timeout in %d minutes.\n", tempCount); } else { outportb(IT8783_ioPort, 0x72); registerValue = inportb(IT8783_ioPort+1); registerValue |= 0x80; tempCount = count_value; if(tempCount != 0) { printf("WDT timeout in %d seconds.\n", tempCount); registerValue |= 0x40; //Enable WDT output through KBRST } else { printf("WDT is Disabled.
7.2 Preboot Execution Environment (PXE) The cPCI-3615 Series supports the Intel® Preboot Execution Environment (PXE) that is capable of booting up or executing an OS installation through an Ethernet ports. To use PXE, there must be a DHCP server on the network with one or more servers running PXE and MTFTP services. It could be a Windows® 2003 server running DHCP, PXE, and MTFTP services or a dedicated DHCP server with one or more additional servers running PXE and MTFTP services.
cPCI-3615 8 BIOS Setup The following chapter describes basic navigation for the AMIBIOS®8 BIOS setup utility. 8.1 Starting the BIOS To enter the setup screen, follow these steps: 1. Power on the motherboard 2. Press the < Delete > key on your keyboard when you see the following text prompt: < Press DEL to run Setup > 3. After you press the < Delete > key, the main BIOS setup menu displays. You can access the other setup screens from the main BIOS setup menu, such as Chipset and Power menus.
Setup Menu The main BIOS setup menu is the first screen that you can navigate. Each main BIOS setup menu option is described in this user’s guide. The Main BIOS setup menu screen has two main frames. The left frame displays all the options that can be configured. “Grayed” options cannot be configured, “Blue” options can be. The right frame displays the key legend. Above the key legend is an area reserved for a text message. When an option is selected in the left frame, it is highlighted in white.
cPCI-3615 Note: There is a hot key legend located in the right frame on most setup screens. The < F8 > key on your keyboard is the Fail-Safe key. It is not displayed on the key legend by default. To set the Fail-Safe settings of the BIOS, press the < F8 > key on your keyboard. It is located on the upper row of a standard 101 keyboard. The Fail-Safe settings allow the motherboard to boot up with the least amount of options set. This can lessen the probability of conflicting settings.
F10 The < F10 > key allows you to save any changes you have made and exit Setup. Press the < F10 > key to save your changes. The following screen will appear: Press the < Enter > key to save the configuration and exit. You can also use the < Arrow > key to select Cancel and then press the < Enter > key to abort this function and return to the previous screen. ESC The < Esc > key allows you to discard any changes you have made and exit the Setup.
cPCI-3615 8.2 Main Setup When you first enter the Setup Utility, you will enter the Main setup screen. You can always return to the Main setup screen by selecting the Main tab. There are two Main Setup options. They are described in this section. The Main BIOS Setup screen is shown below. System Time/System Date Use this option to change the system time and date. Highlight System Time or System Date using the < Arrow > keys. Enter new values using the keyboard.
the left frame of the screen to go to the sub menu for that item. You can display an Advanced BIOS Setup option by highlighting it using the < Arrow > keys. The Advanced BIOS Setup screen is shown below. The sub menus are described on the following pages.
cPCI-3615 8.3.1 CPU Configuration You can use this screen to select options for the CPU Configuration Settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. A description of the selected item appears on the right side of the screen. The settings are described on the following pages. An example of the CPU Configuration screen is shown below.
Execute-Disable Bit Capability Intel’s Execute Disable Bit functionality can help prevent certain classes of malicious buffer overflow attacks when combined with a supporting operating system. Execute Disable Bit allows the processor to classify areas in memory where application code can execute and where it cannot. When a malicious worm attempts to insert code in the buffer, the processor disables code execution, preventing damage and worm propagation.
cPCI-3615 8.3.2 IDE Configuration You can use this screen to select options for the IDE Configuration Settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. ATA/IDE Configuration This item specifies which mode the ATA/IDE channels should be initialized in. The settings are Disabled, Compatible and Enhanced. Configure SATA as When running in Compatible mode, SATA channels can be configured as a legacy IDE channel.
8.3.3 Super IO Configuration You can use this screen to select options for the Super IO settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. The settings are described on the following pages. The screen is shown below. Serial Port1/2 Address Select an address for Serial Port1/2. Port1 Options: 3F8, 3E8, 2E8, Disabled. Port2 Options: 2F8, 3E8, 2E8, Disabled. Serial Port1/2 IRQ Select an IRQ for Serial Port1/2.
cPCI-3615 8.3.4 Hardware Health Configuration This option displays the current status of all of the monitored hardware devices/components such as voltages and temperatures. The options are Enabled and Disabled.
8.3.5 USB Configuration You can use this screen to select options for the USB Configuration. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. The settings are described on the following pages. The screen is shown below. Legacy USB Support Legacy USB Support refers to USB mouse and keyboard support.
cPCI-3615 X Auto: This option auto detects USB Keyboards or Mice and if found, allows them to be utilized during boot and while using DOS. USB 2.0 Controller Mode The USB 2.0 Controller Mode configures the data rate of the USB port. The options are FullSpeed (12 Mbps) and HiSpeed (480 Mbps). USB Functions Set the value to allow the system to disable, enabled and select a set number of onboard USB ports. USB 2.0 Controller Enable or disable USB 2.0 functionality to all USB ports.
8.3.6 AHCI Configuration You can use this screen to select options for the AHCI Settings. Use the up and down < Arrow > keys to select an item. Use the < + > and < - > keys to change the value of the selected option. SATA Port0/1/2 Select the type of device connected to the system. S.M.A.R.T S.M.A.R.T. (Self-Monitoring Analysis and Reporting Technology) is a utility that monitors your disk status to predict hard disk failure.
cPCI-3615 8.3.7 Remote Access Configuration Remote access configuration provides the settings to allow remote access by another computer to get POST messages and send commands through serial port access. Remote Access Select this option to Enable or Disable the BIOS remote access feature. NOTE: Enabling Remote Access requires a dedicated serial port connection. When the assigned serial port is disabled, Remote Access should also be disabled to prevent the system from booting abnormally.
Serial Port Mode Select the baud rate you want the serial port to use for console redirection. The options are 115200 8,n,1; 57600 8,n,1; 19200 8,n,1; and 09600 8,n,1. Flow Control Set this option to select Flow Control for console redirection. The settings for this value are None, Hardware, or Software. Redirection After BIOS POST This option allows you to set Redirection configuration after BIOS POST. The settings for this value are Disabled, Boot Loader, or Always.
cPCI-3615 8.4 Advanced PCI/PnP Settings Select the PCI/PnP tab from the setup screen to enter the Plug and Play BIOS Setup screen. You can display a Plug and Play BIOS Setup option by highlighting it using the < Arrow > keys. The Plug and Play BIOS Setup screen is shown below. IRQ Channel Set this value to allow the IRQ channel settings to be modified. X Available: This setting allows the specified IRQ/DMA channel to be used by a PCI/PnP device.
8.5 Boot Settings Select the Boot tab from the setup screen to enter the Boot BIOS Setup screen. You can select any of the items in the left frame of the screen, such as Boot Device Priority, to go to the sub menu for that item. You can display a Boot BIOS Setup option by highlighting it using the < Arrow > keys.
cPCI-3615 8.5.1 Boot Settings Configuration Use this screen to select options for the Boot Settings Configuration. Use the up and down keys to select an item. Use the and keys to change the value of the selected option. Quick Boot Enabling this setting will cause the BIOS power-on self test routine to skip some of its tests during bootup for faster system boot.
8.6 Security Setup Password Support Two Levels of Password Protection Provides both a Supervisor and a User password. If you use both passwords, the Supervisor password must be set first. The system can be configured so that all users must enter a password every time the system boots or when Setup is executed, using either or either the Supervisor password or User password. The Supervisor and User passwords activate two different levels of password security.
cPCI-3615 Remember the Password Keep a record of the new password when the password is changed. If you forget the password, you must erase the system configuration information in NVRAM. To access the sub menu for the following items, select the item and press < Enter >: X Change Supervisor Password X Change User Password X Clear User Password Supervisor Password Indicates whether a supervisor password has been set. User Password Indicates whether a user password has been set.
8.7 Chipset Setup Select the Chipset tab from the setup screen to enter the Chipset BIOS Setup screen. You can select any of the items in the left frame of the screen to go to the sub menu for that item. The Chipset BIOS Setup screen is shown below. HDA Controller Set this value to Enable/Disable the HD Audio Controller. Onboard LAN BIOS Init Set this value to enable/disable the invoking of onboard LAN’s PXE ROM. Disabling can shorten the POST time by not initializing LAN PXE ROM.
cPCI-3615 8.8 Exit Menu Select the Exit tab from the setup screen to enter the Exit BIOS Setup screen. You can display an Exit BIOS Setup option by highlighting it using the < Arrow > keys. The Exit BIOS Setup screen is shown below. Save Changes and Exit When you have completed the system configuration changes, select this option to leave Setup and reboot the computer so the new system configuration parameters can take effect. Save Configuration Changes and Exit Now? [Ok] [Cancel] appears in the window.
Discard Changes Select Discard Changes from the Exit menu and press < Enter >. Select Ok to discard changes. Load Optimal Defaults Automatically sets all Setup options to a complete set of default settings when you select this option. The Optimal settings are designed for maximum system performance, but may not work best for all computer applications. In particular, do not use the Optimal Setup options if your computer is experiencing system configuration problems.
cPCI-3615 Important Safety Instructions For user safety, please read and follow all instructions, WARNINGS, CAUTIONS, and NOTES marked in this manual and on the associated equipment before handling/operating the equipment. X Read these safety instructions carefully. X Keep this user’s manual for future reference. X Read the specifications section of this manual for detailed information on the operating environment of this equipment.
X Never attempt to fix the equipment. Equipment should only be serviced by qualified personnel. A Lithium-type battery may be provided for uninterrupted, backup or emergency power. WARNING: X 98 Risk of explosion if battery is replaced with one of an incorrect type. Dispose of used batteries appropriately.
cPCI-3615 Getting Service Contact us should you require any service or assistance. ADLINK Technology, Inc. Address: 9F, No.166 Jian Yi Road, Zhonghe District New Taipei City 235, Taiwan ᄅؑקխࡉ৬ԫሁ 166 ᇆ 9 ᑔ Tel: +886-2-8226-5877 Fax: +886-2-8226-5717 Email: service@adlinktech.com Ampro ADLINK Technology, Inc. Address: 5215 Hellyer Avenue, #110, San Jose, CA 95138, USA Tel: +1-408-360-0200 Toll Free: +1-800-966-5200 (USA only) Fax: +1-408-360-0222 Email: info@adlinktech.com ADLINK Technology (China) Co.
ADLINK Technology, Inc. (French Liaison Office) Address: 15 rue Emile Baudot, 91300 Massy CEDEX, France Tel: +33 (0) 1 60 12 35 66 Fax: +33 (0) 1 60 12 35 66 Email: france@adlinktech.com ADLINK Technology Japan Corporation Address: ͱ101-0045 ᵅҀ䛑गҷ⬄ऎ⼲⬄䤯 ⬎ފ3-7-4 ⼲⬄ 374 ɛɳ 4F KANDA374 Bldg. 4F, 3-7-4 Kanda Kajicho, Chiyoda-ku, Tokyo 101-0045, Japan Tel: +81-3-4455-3722 Fax: +81-3-5209-6013 Email: japan@adlinktech.com ADLINK Technology, Inc.
