ACM-B6360 Board User Manual 1
Copyright All Rights Reserved. Manual’s first edition: For the purpose of improving reliability, design and function, the information in this document is subject to change without prior notice and does not represent a commitment on the part of the manufacturer. In no event will the manufacturer be liable for direct, indirect, special, incidental, or consequential damages arising out of the use or inability to use the product or documentation, even if advised of the possibility of such damages.
Table of Contents Chapter 1 Introduction..........................................................................5 1.1 Specifications.......................................................................................................... 5 1.2 1.3 Package Contents .................................................................................................... 6 Block Diagram ........................................................................................................
5.1 API List and Descriptions..................................................................................... 61 5.1.1 GPIO and Watchdog .................................................................................
Chapter 1 Introduction ACM-B6360 is a COM Express Type 6 Basic module that fully complies with the PCI Industrial Computer. It supports 3rd Generation Intel ® core TM i7 processors. It integrates Intel ® PCH QM77 chipset. Besides basic I/O ports support like VGA, LVDS, USB2.0, USB3.0, COM. LAN, and GPIO with ACM-B4080 (optional). 1.
1.2 Package Contents Check if the following items are included in the package.
1.
Chapter 2 H/W Information This chapter describes the installation of ACM-B6360. At first, it shows the Function diagram and the layout of ACM-B6360. It then describes the unpacking information which you should read carefully, as well as the jumper/switch settings for the ACM-B6360 configuration. 2.1. Mainboard illustration Top Side CPU Intel Ivy Bridge Core i7-3615QE / 2.
Bottom Side 9
2.2.
CN_BAT1 CN_DIMM_2 CN_DIMM_1 DDR3 ECC SO-DIMM 204P DDR3 ECC SO-DIMM 204P WAF-H_1X2P_1.25mm for RTC Battery connector CCMOS1 SPI1 CMOS Memory Clearing PAD For BIOS Firmware Update CN_HDR1 For SPI_CS0# and SPI_CS1# Selection. CN2 CN1 COM Express2.0 Module Type 6 Connector Rows A/B COM Express2.
2.3. 1,2. Connectors and Jumper Settings CN_DIMM1 and CN_DIMM2 3.CN_BAT1 RTC Battery connector DDR3-ECC SO-DIMM Socket 204P 4. CCMOS1 5. PIN SIGNAL PIN SIGNAL 1 BAT+ 2 BAT- SPI1 ( For BIOS FW Update ) Used for BIOS Firmware Update Tools Pin SIGNAL Pin SIGNAL Pin SIGNAL 1-2 Open (default) 1 CS# 2 VCC Normal Operation 3 SO 4 Hold Short Touch 5 WP# 6 SCK Clear CMOS Data 7 GND 8 SI 9 NC 10 NC 1-2 6. CN_HDR1 7.
7. CN1 – COM Express 2.0 Base Module Type 6 / Connector Rows C/D / 220Pin CN2 – COM Express 2.
Pin CN2 – Row A CN2 – Row B CN1 – Row C CN1 – Row D 34 BIOS_DISABLE0# I2C_DAT DDI2_DDC_AUX_SEL DDI1_DDC_AUX_SEL 35 THRMTRIP# THRM# RSVD RSVD 36 USB6- USB7- DDI3_CTRLCLK_AUX+ DDI1_PAIR3+ 37 USB6+ USB7+ DDI3_CTRLDATA_AUX- DDI1_PAIR3- 38 USB_6_7_OC# USB_4_5_OC# DDI3_DDC_AUX_SEL RSVD 39 USB4- USB5- DDI3_PAIR0+ DDI2_PAIR0+ 40 USB4+ USB5+ DDI3_PAIR0- DDI2_PAIR0- 41 GND (FIXED) GND (FIXED) GND (FIXED) GND (FIXED) 42 USB2- USB3- DDI3_PAIR1+ DDI2_PAIR1+ 43 USB2+ US
Pin CN2 – Row A CN2 – Row B CN1 – Row C CN1 – Row D 69 PCIE_TX0- PCIE_RX0- PEG_RX5- PEG_TX5- 70 GND(FIXED) GND(FIXED) GND(FIXED) GND(FIXED) 71 LVDS_A0+ LVDS_B0+ PEG_RX6+ PEG_TX6+ 72 LVDS_A0- LVDS_B0- PEG_RX6- PEG_TX6- 73 LVDS_A1+ LVDS_B1+ GND(FIXED) GND(FIXED) 74 LVDS_A1- LVDS_B1- PEG_RX7+ PEG_TX7+ 75 LVDS_A2+ LVDS_B2+ PEG_RX7- PEG_TX7- 76 LVDS_A2- LVDS_B2- GND GND 77 LVDS_VDD_EN LVDS_B3+ RSVD RSVD 78 LVDS_A3+ LVDS_B3- PEG_RX8+ PEG_TX8+ 79 LVDS_A3- LV
104 VCC_12V VCC_12V VCC_12V VCC_12V 105 VCC_12V VCC_12V VCC_12V VCC_12V 106 VCC_12V VCC_12V VCC_12V VCC_12V 107 VCC_12V VCC_12V VCC_12V VCC_12V 108 VCC_12V VCC_12V VCC_12V VCC_12V 109 VCC_12V VCC_12V VCC_12V VCC_12V 110 GND (FIXED) GND (FIXED) GND (FIXED) GND (FIXED) Note1: PCIex1 lane 8 (PCIE_TX7+, PCIE_TX7-, PCIE_RX7+, PCIE_RX7-) is for onboard GbE LAN using. Note2: DO NOT connect VBAT_RTC to GND directly, it may cause board damaging.
2.4. Specifying the boot BIOS (CN_HDR1 setting) he COM Express module/Type6 typically supports the BIOS disable signal (BIOS_DIS1# and BIOS_DIS0#) and SPI_CS# signal. The BIOS disable signals are set on the carrier board. The combination of these signals is used to define booting from module SPI or carrier board SPI/FWH. Below table shows the signals and jumper settings on the CN_HDR1 headers.
2.5.
Chapter 3 BIOS Settings This chapter describes the BIOS menu displays and explains how to perform common tasks needed to get the system up and running. It also gives detailed explanation of the elements found in each of the BIOS menus.
3.1. Main Setup Once you enter the AMI BOS™ CMOS Setup Utility, the Main Menu will appear on the screen. Use the arrow keys to highlight the item and then use the keys to select the value you want in each item. Note: Listed at the bottom of the menu are the control keys. If you need any help with the item fields, you can press the key, and it will display the relevant information.
Processor N/A This item displays the CPU Information Name N/A This item displays the CPU type Brand String N/A This item displays the CPU processor. Frequency N/A This item displays the CPU speed. Processor ID N/A This item displays the CPU processor ID N/A This item displays CPU # of cores and Threads. IGFX VBIOS Version N/A This item displays the VBIOS’s version. Total Memory N/A This item displays the memory size that used.
3.2. Advanced Setup Option Choice CPU Configuration NA CPU Configuration Parameters SATA Configuration NA SATA Device Options Settings NA System Super IO Chip Parameters.
3.2.1 CPU Configuration Option Choice Description Enabled for Windows XP and Linux (OS optimized for Hyper-threading Enabled / Disabled Hyper-Threading Technology) and Disabled for other OS (OS not optimized for Hyper-Threading Technology) When Disabled only one thread per enabled core is enabled.
3.2.2 SATA Configuration Option Choice SATA Controller(s) Enabled / Disabled Enable or Disable SATA Device. IDE / AHCI / RAID Determines how SATA controller(s) operate.
3.2.2.1 Software Feature Mask Configuration When you choose RAID of “SATA Mode Selection”, It will appear a new item “Software Feature Mask Configuration”. Option Choice Description RAIO0 Enabled / Disabled Enable or disable RAIO0 feature. RAIO1 Enabled / Disabled Enable or disable RAIO1 feature. RAIO10 Enabled / Disabled Enable or disable RAIO10 feature. RAIO5 Enabled / Disabled Enable or disable RAIO5 feature.
3.2.
3.3. HW Monitor Setup Option Choice Description System Temperature N/A This item displays the System Temperature SYS FAN Speed N/A This item displays the SYS FAN Speed CPU FAN Speed N/A This item displays the CPU FAN Speed CPU Core Voltage N/A This item displays the CPU Core Voltage DDR3 Voltage N/A This item displays the DDR3 Voltage 1.05V Voltage N/A This item displays the 1.
ATX +12V (8-Pin Connector) +3.3V Voltage N/A This item displays the ATX +12V Voltage N/A This item displays the +3.
3.4. Chipset Setup Option Choice PCH-IO Configuration NA PCH Parameters NA System Agent (SA) Parameters.
3.4.1 PCH-IO Configuration Option PCI Express Configuration USB Configuration PCH Azalia Configuration Choice Description NA PCI Express Configuration settings NA USB Configuration settings NA PCH Azalia Configuration settings.
3.4.1.1 PCI Express Configuration Option PCI Express Root Port 1 ~8 Choice Description NA PCI Express Root Port 1 ~8 Settings.
3.4.1.2 USB Configuration Option Choice Description Allows for HS port switching between HS Port #1~4 Switchable Enabled / Disabled xHCI and EHCI. If disabled, port is routed to EHCI. If HS port is routed to xHCI the corresponding SS port is enabled. Control EHCI1 Enabled / Disabled the USB EHCI (USB 2.0) functions. One EHCI controller must always be enabled. Control EHCI2 Enabled / Disabled the USB (USB 2.0) functions. One EHCI controller must always be enabled.
3.4.1.3 CH Azalia Configuration Option Choice Description Control Detection of the Azalia device. Disabled = Azalia will be unconditionally disabled Azalia Enabled / Disabled / Auto Enabled = Azalia will be unconditionally Enabled Auto = Azalia will be enabled if present, disabled otherwise.
3.4.2 System Agent (SA) Configuration Option Choice Description Graphics Configuration NA Configure Graphics Settings.
3.4.2.1 Graphics Configuration Option Choice Description Select which of IGFX/PEG/PCI Graphics Primary Display Auto / IGFX / PEG / PCI / SG device should be Primary Display 0r select SG for Switchable Gfx. Internal Graphics Auto / Disabled / Enabled GTT Size 1MB / 2MB Aperture Size 128MB / 256MB / 512MB Keep IGD enabled based on the setup options. Select the GTT Size Select the Aperture Size 32M / 64M / 96M / 128M / 160M / 192M / 224M / 256M / Select DVMT 5.
NA LCD Control 3.4.2.1.1 LCD Control LCD Control Option Choice Description Select the Video Device which will be Primary IGFX Boot Display VBIOS Default / D-SUB / SDVO / LVDS / HDMI 2 / HDMI 1 activated during POST. This has no effect if external graphics present. Secondary boot display selection will appear based on your selection VGA modes will be supported only on primary display.
Select the Active LFP Configuration. No LVDS: VBIOS does not enable LVDS. Int-LVDS: VBIOS enables LVDS driver by Active LVDS No LVDS/ Int-LVDS Integrated encoder. SDVO LVDS: VBIOS enables LVDS driver by SDVO encoder. eDP Port-A: LFP Driven by Int-DisplayPort encoder from Port-A.
3.4.2.2 Memory Configuration Option Choice Description Memory Frequency Auto / 1067 / 1333 / 1600 / Maximum Memory Frequency Selections Limiter 1867 / 2133 / 2400 / 2667 in Mhz.
3.5. Boot Setup Option Boot up Num Lock State Boot Loge Choice Description On / Off Select the keyboard Num Lock State Disabled / Enabled Enables or disables Quiet Boot option Enables or disables boot with initialization of a minimal set Fast Boot Disabled / Enabled of devices required to launch active boot option. Has no effect for BBS boot options.
Connection / Disabled IBA GE Slot 0200 v1322 / UEFI: IP4 Intel ® 82574L Gigabit Network Boot Option #2 Connection / UEFI: Sets the system boot order IP6 Intel ® 82574L Gigabit Network Connection / Disabled Network Device BBS Priorities Hard Drive BBS Priorities CSM parameters NA Set the order of the legacy devices in this group NA Set the order of the legacy devices in this group NA Op ROM execution, boot options filter, etc.
3.5.
3.6. Save & Exit Setup option Save Changes and Exit Discard Changes and Exit Choice Description Pressing on this item for save Exit system setup after saving the changes. changes and exit. Pressing on this item for discard Exit system setup without saving any changes. changes and exit.
Pressing on this item for Save Changes and confirmation : Save Reset configuration and Reset the system after saving the changes. reset Pressing on Discard Changes and Reset this item for confirmation: Reset Reset system setup without saving any changes. without saving Pressing on this item for Save Changes confirmation: Load Save Changes done so far to any of the setup options.
Chapter 4 Driver And Utility Installation 4.1. Driver CD Interface Introduction Acrosser provides the a driver CD, which includes the drivers, utilities, applications and documents. For Windows environment, it can be guided by the setup program; for Linux environment, the related files can be found at folder “ACMB6360\Linux”. Once putting the CD into the optical disk drive, it will run automatically. The driver CD will also detect the MB information to see if they are matched.
4.1.1 Driver Page This is the Driver Installation Page.
Click the icon, all the drivers will be selected.
Click the icon, all selected items will be cleared.
Click the icon to install the selected drivers. The progress bar shows up. The main window will temporarily disappear.
Please click ‘Yes’ to restart the system.
Click this icon to browse this CD content.
4.1.
Before launching this utility, users have to install the ‘Acrosser Driver’ in advance. The system may ask for installing other libraries. You can find the libraries on the ‘Application’ page also. ACM-B6360 ︱ Driver ︱ Utility ︱ Application ︱ Acrobat Reader 9.2 INTEL_MEI Microsoft .
This is the test utility.
4.1.3 Application Page ACM-B6360 ︱ Driver ︱ Utility ︱ Application ︱ Acrobat Reader 9.2 INTEL_MEI Microsoft .
Note: Installing Windows XP in the AHCI mode Due to Windows XP is older operating system, it don’t include AHCI driver. If you want to install Windows XP operating system in the AHCI mode, please follow the steps listed below. ( reference ‘F6Readme.txt’ from folder of the WinXP32_RAID Driver) Double click this item to open the folder of the WinXP32_RAID Driver. Users need this driver package if they install the Windows XP in the AHCI mode.
Prepare a USB floppy drive and a floppy disk. Copy all the files in this folder to the floppy disk. In the BIOS setup, enable the AHCI mode of the hard drive.
Connect the floppy drive to the system before installing the Windows XP operating system. Make sure the floppy disk is inserted. Boot the system with the installation CD. Follow the instructions on the screen. As soon as the screen shows this information, press ‘F6’. When the screen shows this information, press ‘S’.
When the screen shows a list of available drivers, choose the ‘Mobile Express Chipset SATA AHCI Controller’.
When the screen shows this information, press ‘Enter’ to continue installing the operating system.
4.1.4 Documents Page Double click on one of the items to open the manual.
Chapter 5 Software Installation and Programming Guide 5.1 API List and Descriptions 5.1.1 GPIO and Watchdog 5.1.1.1 Overview This model provides both a GPIO interface and a Watchdog timer. Users can use the GPIO and Watchdog APIs to configure and to access the GPIO interface and the Watchdog timer. The GPIO has four input pins and four output pins. The Watchdog timer can be set to 1~255 seconds. Setting the timer to zero disables the timer.
Set value 0 is Low, 1 is High Return Value: If the function sets the values successfully, it returns 0 or -1, any other returned value stands for error. 5.1.1.3 GPIO (Windows) 1. Syntax: getChLevel(u8 *val) Description: Get the status of GPIO input pins and output pins, and put the value at *val. Parameters: This function takes a pointer to an unsigned char variable as the parameter. The bit0 ~ bit3 in the pointed variable ‘*val’ is the status of the output pins.
2. Syntax: Wdt_stop(Void) Description: Any time call this function will stop Watchdog Timer. Parameters: None. Return Value: None. 3. Syntax: Get_wdt_count() Description: This function read the value of the watchdog time counter. Parameters: None. Return Value: This function returns the value of the time counter. 5.1.1.5 Watchdog (Windows) 1. Syntax: setWtdTimer(u8 value) Description: This function of the watchdog time to start counter.
