MXC-6300 High Performance 3rd Generation Intel® Core™ i7/i5/i3 Fanless Computer Y R User’s Manual R P L E A IN IM Manual Rev.: PRELIMINARY Revision Date: Dec 20, 2012 Part No: 50-PRE Advance Technologies; Automate the World.
Revision History Revision Release Date Description of Change(s) PRELIMINARY Dec 20,2012 Pre-Initial Release NOTE: R P ii Y R Please note that this is a PRELIMINARY version of the MXC-6300 User’s Manual. While every effort has been made to ensure the contents hereof are currently accurate, subsequent releases may contain changes to the specification and operations, both minor and major, as well as entirely new chapters and modules not represented here.
MXC-6300 Preface Copyright 2012 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.
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. Y R NOTE: CAUTION: WARNING: Information to prevent serious physical injury, component damage, data loss, and/or program corruption when trying to complete a specific task.
MXC-6300 Table of Contents Revision History...................................................................... ii Preface .................................................................................... iii List of Tables.......................................................................... ix Y R List of Figures ........................................................................ xi 1 Introduction ........................................................................ 1 A IN IM 1.
1.7 1.6.14 PCI slot ..................................................................... 26 1.6.15 PCI express x8 slot................................................... 26 1.6.16 PCI express x16 slot................................................. 26 1.6.17 Reserved space for wide PCI express x16 card....... 26 Internal I/O connectors....................................................... 27 1.7.1 Clear CMOS Jumper ................................................ 29 1.7.
MXC-6300 3.6 Installing the USB 3.0 driver .............................................. 60 3.7 Installing the Intel Management Engine driver................... 60 3.8 Installing the WDT driver/API............................................. 61 3.9 Installing the DI/O Driver/API............................................. 61 A Appendix: Power Consumption....................................... 63 A.1 Power Consumption Reference......................................... 63 A.
D.1 WDT with API/Windows ..................................................... 95 D.2 WDT with DOS/Linux ......................................................... 98 E Appendix: Digital Input/Output Function Library ...................................................................101 Important Safety Instructions............................................. 113 Y R Getting Service ....................................................................
MXC-6300 List of Tables Table Table Table Table Table Table Table Table Table Table Table 1-1: 1-2: 1-3: 1-4: 1-5: 1-6: 1-7: 1-8: 1-9: 1-10: 1-11: Table Table Table Table Table Table Table Table Table Table Table 1-12: 1-13: 1-14: 1-15: 1-16: 1-17: 1-18: 1-19: 1-20: A-1: A-2: R P List of Tables Front Panel I/O Connector Legend........................... 11 LED Indicators .......................................................... 11 Digital I/O Connector Pin Signals .............................
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MXC-6300 List of Figures Figure 1-1: Figure 1-2: Figure 1-3: Figure 1-4: Figure 1-5: Figure 1-6: Figure 1-7: Figure 1-8: Figure 1-9: Figure 1-10: Figure 1-11: Figure 1-12: Figure 1-13: Figure 1-14: Figure 1-15: Figure 1-16: R P List of Figures MXC-6300 Functional Block Diagram ........................ 6 MXC-6300 Left Side View .......................................... 7 MXC-6300 Top View .................................................. 8 MXC-6300 Front View ............................................
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MXC-6300 1 Introduction 1.1 Overview The Matrix MXC-6300 provides powerful, fanless, expandable embedded computing using the new Intel® Core™ i7-620LE Processor 2.0 GHz with improved computing performance. The MXC6300 continues the exceptional fanless and cable-free design from the existing Matrix C series. Y R The MXC-6300 offers 2x display ports and 1xDVI-I port supporting three independent displays, 4xUSB3.0 and 2xUSB2.0 ports, and 2 GbE LAN ports with teaming function. The two 2.
1.2 Features X 3rd generation Intel® Core™ i7/i5/i3 Ivy Bridge rPGA processor + QM77 chipset X 2 x DDR3 SO-DIMM socket, supporting up to 16GB DDR3 1333/1600 SO-DIMM Module X 2PCIex8 + 1PCI slots or 1PCIex16 + 1PCI expansion slots available, supporting PCIe Gen2 cards X 3 independent display support with on-board 2xDisplay Port + 1x DVI-I port X 6 External USB ports (USB 3.0 portsx4 + USB 2.0x2) + 1 Internal USB 2.0 port X 2 Intel GbE LAN ports with teaming function, featuring Intel iAMT 8.
MXC-6300 1.3 Specifications MXC-6301D MXC-6302D MXC-6303D Processor Intel® Core™ i73610QE Quad Core, 2.3GHz, 6M cache (Max Turbo Frequency 3.3GHz) Intel® Core™ i53610ME Dual Core, 2.7GHz, 3M cache (Max Turbo Frequency 3.3GHz) Intel® Core™ i33120ME Dual Core, 2.
MXC-6301D MXC-6302D Audio 1 Mic-in and 1 Line-out KB/MS 1 PS/2 keyboard and 1 PS/2 mouse MXC-6303D Power Supply DC Input Built-in 9-32 VDC wide-range DC input 3P pluggable connectors with latch (GND, V-, V+) 2-pin remote power on/off switch AC Input Optional 160 W external AC-DC adapter for AC input Y R Storage SATA HDD 2 onboard SATA-III port for 2.
MXC-6300 Extending operating temperature to the -20°C to +60°C range is optional and requires an industrial solid-state storage drive. NOTE: Power Supply (24VDC) Power Off* System Idle** System Full Load*** Y R Recommended Power Supply**** Integrated Embedded Computer MXC-6300 i7 2.16 W MXC-6300 i5 2.16 W MXC-6300 i3 2.16 W 18.48 W 91.2 W 16.8 W 67.2 W 16.08 W 53.
Channel A 204 pin SODIMM Channel B 204 pin SODIMM Intel࿗ Core DDR3 PCIe x8 DDR3 i3-3120ME 2.4GHz i5-3610ME 2.7GHz i7-3610QE 2.3GHz 1333/1600MHz Processor 1333/1600MHz FDI PCIe x8 PCIe x16 DMI DVI DVI level shifter PCIe x8 slot DDPB PCIe x1 USB 2.0 DDPC SATA III Dual Display Port connector PCI DDPD SATA III Intel࿗ QM77 IO Board RJ45 & USB3.0 x 2 Connector RJ45 & USB3.0 x 2 Connector USB 2.0 GbE I/F GbE PHY Intel 82579LM PCIe x1 USB 3.
MXC-6300 1.4 Schematics and Dimensions All dimensions shown are in mm (millimeters). NOTE: Y R A IN IM 213 R P Introduction L E 225.
Y R A IN IM Figure 1-3: MXC-6300 Top View R P L E 174.
MXC-6300 Y R A IN IM Figure 1-5: MXC-6300 Rear View R P 102 L E 11 133 18.6 15.9 189.
1.5 Front Panel I/O Connectors A B D C Y R E H G F A IN IM I J K L R P L E M N O P Q R Figure 1-7: Front Panel I/O Connector A 10 Power Button J COM port x4 B LED Indicators K Display ports C Reset Button L Audio Jacks D Digital I/O connector M PS/2 Keyboard & Mouse E USB 2.0 x2 (Type A) N DC power supply F USB3.
MXC-6300 G Gigabit Ethernet P H CFast (Push-Push, Type II) Q PCI express x16 Slot I DVI-I connector Reserved space for dualslot width PCIex16 graphic card R PCI express x8 Slot Table 1-1: Front Panel I/O Connector Legend Y R 1 PCE x16 + 1 PCI expansion slot, with PCIe x16 signal converts to PCIe x8 if two PCI x8 cards are installed NOTE: 1.5.1 Power Button A IN IM The power button is a non-latched push button with a blue LED indicator.
1.5.3 Reset Button The reset button executes a hard reset for the MXC-6300. 1.6 Digital I/O Connector The MXC-6300 controller features an onboard isolated digital I/O circuit with a 68-pin VHDCI (Very High Density Cable Interconnect) connector on the front panel. The onboard digital I/O card supports the following features: Y R 16-CH Isolated DI X Logic high: 5 to 24 V X Logic low: 0 to 1.5 V X Input resistance: 8.2K @ 0.
MXC-6300 General Specification X 68-pin VHDCI(Very High Density Cable Interconnect) connector (mating with AMP 787082-7) on the front panel X Optional accessories: DIN-68S-01 and ACL-10568-1 X Data transfer: programmed IO X Software Driver support for Win7 32bit: PCMe1432_x86_v0.0.0.6Software Driver support for Win7 64bit: PCMe-1432_x64_v0.0.0.
DIn_H High input of isolated differential DI channel (n=0 to 7) DIn_L Low input of isolated differential DI channel (n=0 to 7) DIn Input of isolated DI channel (n=8 to 15) ISO_COM Common ground of isolated DI channel 8 to 15 DOn Output of isolated DO channel (n=0 to 15) EOGND Ground return path of isolated DO channel 0 to 15 and +V5DIO_CN_ISO +VDD Power input signal for flywheel diode of isolated DO channel 0 to 15 DI DO Y R A IN IM +V5DIO_CN_ISO Isolated 5V DC power, maximum output 180mA
MXC-6300 Photocoupler DIn 8.
Power Photocoupler Y R 8.2 k DIn DI_n ISO_COM A IN IM GND Power DIn R P L E Photocoupler 8.
MXC-6300 1.6.2 Isolated Digital Output Circuits Each isolation digital output channel adopts a MOSFET transistor, capable of driving peak current up to 250mA (sustained current up to 100 mA) with voltage ranges from 5V to 35V. The VDD pin is connected in serial with a flywheel diode protecting the driver during inductance loading, such as relay, motor, or solenoid, wherein the VDD must connect to external power to form a flywheel current loop.
contains Windows drivers, the API library, demo programs, and manuals. NOTE: 1.6.4 The MXC-6300 DI/O is recognized as PCMe-1432 in PCISDASK. It can be accessed by PCI-7230 driver, API, and demo programs in PCIS-DASK. Please refer to the PCIS-DASK manual for more information. Y R USB 2.0 Ports The MXC-6300 provides two USB 2.0 ports supporting Type A USB connection on the front panel. All USB ports are compatible with high-speed, full-speed and low-speed USB devices.
MXC-6300 X RSS and MSI-X to lower CPU utilization in multi-core systems X ECC - error correcting memory in packet buffers X Wake-On-LAN X NC-SI for increased bandwidth passthrough X SMBus low-speed serial bus to pass network traffic X Preboot eXecution Environment (PXE) flash interface X Jumbo frame support X LAN Teaming Y R The WG82579LM provides: A IN IM X 802.3x flow control X IEEE 802.1p and 802.1q X Energy Efficient Ethernet(EEE)802.3az X 10/100/1000 IEEE 802.
t Active/Link Yellow LED Color Yellow Y R A IN IM Speed LED Green/Orange Status Description OFF Ethernet port is disconnected. ON Ethernet port is connected with no activity. Flashing Ethernet port is connected and active. L E Table 1-5: Active/Link LED LED Color R P Status OFF Green/Orange Green 1.6.
MXC-6300 1.6.8 DVI-I connector The MXC-6300 provides one DVI-I connector providing connection to an external monitor. The DVI-I connector can be separated into VGA and DVI-D (single link) interfaces using the included ADLINK Y-cable. Y R Since VGA signals are analog based, VGA display quality is greatly affected by quality and length of cable used. We strongly recommended VGA cable less than 2 meters in length with effective shielding, such as UL style 2919 AWM.
1.6.9 COM Port connectors The MXC-6300 provides four COM ports through D-sub 9 pin connectors. The COM1 & COM2 ports support RS-232/422/485 modes by BIOS setting, while COM3 and COM4 support only RS232. Please refer to Section :COM 1~4, SOL(Serial Over LAN) COM for details of BIOS COM port mode settings.
MXC-6300 Pin Signal Pin Signal 1 CN_DDPx0+ 11 GND 2 GND 12 CN_DDPx3- 3 CN_DDPx0- 13 CN_DDPx_AUX_SEL 4 CN_DDPx1+ 14 CN_DDPx_CONFIG2 5 GND 15 CN_DDPx_AUX+ 6 CN_DDPx1- 16 GND 7 CN_DDPx2+ 17 CN_DDPx_AUX- 8 GND 18 CN_DDPx_HPD 9 CN_DDPx2- 19 GND 10 CN_DDPx3+ 20 +V3.
1.6.11 Audio Jacks The MXC-6300 implements Intel High Definition audio on a Realtek ALC269 chip. The HD audio supports up to 24-bit, 192 KHz sample rate high quality headphone/lineout and microphone input. Audio jack access is on the front panel. The pink jack provides microphone input, and the green jack lineout. Color A IN IM Signal Green Pink Y R lineout Mic In Table 1-12: Audio Jack Signals 1.6.
MXC-6300 Keyboard & mouse PS/2 connectors do not support hotplug capability. NOTE: 1.6.13 DC Power connector Y R The DC power supply connector of the MXC-6300 is on the front panel. The power supply connector consists of three pins, V+, chassis ground, and V- from right to left respectively. V+ and Vpins provide DC power input and the chassis ground pin allows connection of the chassis to ground for better EMC compatibility.
1.6.14 PCI slot The MXC-6300 provides one PCI slot for expansion on the ABX6310-BP board. Based on the TI XIO2001I PCIe to PCI bridge, connection to the host system is achieved through a PCIe x1 Gen2 interface, supporting universal or 5V PCI 32-bit cards operating at 33/66MHz clocks. 1.6.15 PCI express x8 slot Y R The MXC-6201 provides one PCI express x4 slot for expansion. The PCI express slot can support support standard PCIe revision 2.2 short cards. 1.6.
MXC-6300 1.
D E A Y R B C F A IN IM Figure 1-15: Backplane Board PCB A PCI express x16 slot B PCI express x8 slot C 32bit 5V PCI slot D Internal USB connector E SATA connector x2 F Backplane board to mainboard PCB connector R P L E Table 1-16: Backplane Board Connector Legend 28 Introduction
MXC-6300 1.7.1 Clear CMOS Jumper Upon encountering an abnormal condition preventing the MXC6300 from booting, the jumper can clear the BIOS content stored in CMOS and restore default settings. To clear CMOS, short pin #1 to pin #2 of JP1 and then remove the jumper to return to normal mode. Normal Clear Y R A IN IM Table 1-17: Clear CMOS Jumper Settings 1.7.
Pin Signal 4 +5V Table 1-18: +5V and +12V Connector Pin Functions 1.7.3 Internal CFast Card Connector An internal Type II push-push CFast socket connects to the host controller by SATA interface. Data transfer rates up to 3.0Gb/s (300MB/s) / 1.5Gb/s (150MB/s) are supported. The host SATA controller provides a legacy operating mode using I/O space, and an AHCI operating mode using memory space. The CFast card can function as a storage device for system installation.
MXC-6300 1.7.4 LVDS Interface Connector The MXC-6300 provides an internal LVDS interface connector. The LVDS interface can support dual channel LVDS signals.
80°C (176°F). The fan rotates at maximum speed when Power On Self Test begins. The USB connector does not support standard USB connections, which may be damaged by the DC 12V power supply. WARNING: 1.7.6 Y R LVDS Panel Backlight Control Connector The MXC-6300 provides backlight control to the LVDS panel by the pin header connector, controlling LVDS panel backlight on/off and brightness functions.
MXC-6300 to operate in IDE or AHCI mode in BIOS.This SATA connector is designed to support a 2.5 inch hard disk drive (HDD) or solid state disk (SSD). The HDD or SSD must be installed into the SATA connector with a HDD bracket. Please refer to Section 3.1 for installation of a 2.5 inch HDD or SSD. 1.7.9 Backboard to System PCB Connector This connector connects the backboard to a golden fingerequipped mainboard PCB.
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MXC-6300 2 Getting Started This chapter discusses installation of a hard disk drive, a PCI/PCIe card, and two CompactFlash cards in the system. In addition to connection and use of eSATA-to-SATA interface external storage device, MXC-6300 wall-mounting is also described. 2.1 Unpacking Checklist Y R Before unpacking, check the shipping carton for any damage. If the shipping carton and/or contents are damaged, inform your dealer immediately.
2.2 Installing Hard Disk Drives Before installing hard disk drives, remove the top cover of the chassis first as follows. 1. Loosen the thumbscrews on the front panel by hand or screwdriver.
MXC-6300 2. Withdraw the thumbscrew and remove the top cover by lifting.
3. Remove 2 screws from the top of the HDD bracket. Y R A IN IM 4. Place the chassis upside down and remove the other 2 screws from the bottom of the HDD bracket.
MXC-6300 5. Lift the HDD bracket. Y R L E A IN IM 6. Use the 8 included M3 screws to fix one or two 2.5” HDD or SSD units to the bracket. Upper 2.5’’ HDD or SSD is SATA Revision 1, and the lower Revision 2.
7. Gently push the HDD/SSD bracket down to the SATA connector on the PCB. Y R L E A IN IM 8. Reverse Steps 3 and 4 to fasten the 4 screws. 9. Replace the top cover and fasten the thumbscrew.
MXC-6300 2.3 Installing a PCI/PCIe Card Follow steps 1-2 in Section 2.2:Installing Hard Disk Drives to remove the top cover before installing a PCI/PCIe card. 1. Insert thePCI/PCIe card into the PCI/PCIe slot. Ensure that the lower edge of the PCI/PCIe card aligns with the alignment guide.
2. Adjust the position of the included card brace to firmly fix the card. Y R L E A IN IM Tighten the screw to fix the brace. R P 3. Replace the top cover and fasten the thumbscrew.
MXC-6300 2.4 Installing CF Cards The MXC-6300 provides internal and external CompactFlash sockets to accommodate a total of two CF cards. According to steps 1-2 in Section 2.2, remove the top cover. 1. Align the internally mounted CF card with the guide of the internal CF socket. Y R L E A IN IM 2. Gently depress the CF card until it is firmly seated in the internal CF socket.
3. Place the two included spacer supports to prevent the CF card from dislodging. Y R L E A IN IM 4. Replace the top cover and refasten the thumbscrews.
MXC-6300 5. Remove the external CF socket cover.
6. Align the externally mounted CF card with the guide of the external CF socket.
MXC-6300 7. Gently insert the CF card until it is firmly seated in the external CF socket, as shown.
2.5 Connecting and Using Display Port Extension Devices 1. Connect a Display Port-to-DVI active adapter cable to the MXC-6300 Display Port jack. 2.
MXC-6300 2.6 Connecting DC Power WARNING: Before connecting DC power to the MXC-6300, ensure voltage and polarity are compliant with the DC input. Improper input voltage or polarity can cause system damage. Y R L E A IN IM The DC power input connector of the MXC-6300 has V+, V- , and chassis ground pins, and accepts input voltage as shown previously. Connect DC power as shown. Two screws fasten to secure the plug.
2.7 Wall-mounting the MXC-6300 All dimensions shown are in mm (millimeters). NOTE: The MXC-6300 is shipped with wall-mount brackets and accessory screws. Y R Wall–mounting procedures follow. 1. Remove the 4 plastic pads from the corners.
MXC-6300 2. Use the 4 M4 screws shipped with the controller to fix the 2 wall-mount brackets, also included, to the chassis, according to the spacing dimensions of the screw holes and brackets, as shown. Y R 108.0 168.0 182.0 84.0 84.0 R P L E A IN IM 239.1 253.
25.2 7.2 5.2 5.2 10.0 Y R A IN IM 3. Once final assembly as shown is complete, mount the MXC-6300 on the wall via screw holes.
MXC-6300 2.8 Optional Fan Module The MXC-6300 can be optionally equipped with an easily installed fan module providing heat dissipation. To install the fan module: 1. Follow steps 1-2 in Section 2.2 to remove the top cover. Seat the fan module in the chassis.
2. Slide the fan module back until USB connection is secured, as shown. Y R L E A IN IM 3. Replace the thumbscrews. 2.9 Cooling Considerations R P Heat-generating components of the MXC-6300 (such as CPU and PCH) are all situated on the left side of the system. These components directly contact the heat sink via thermal pads and dissipate heat generated by the components. To maximize efficiency of heat dissipation, maintain a minimum of 2 inches (5 cm) clearance on the top of the MXC-6300 controller.
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MXC-6300 3 Driver Installation After installing the operating system, all related drivers must be installed for the system to function properly. This section describes the drivers needed for Windows operating systems and the procedures to install them. For other OS support, please contact ADLINK for further information. The MXC-6300 enables full driver support for systems running Windows 7 32 or 64bit.
3.1 Installing the chipset driver The chipset driver directs the operating system to configure the Intel® NM10chipset components in order to ensure that the following features function properly: X SATA Storage Support X USB Support X Identification of Intel® Chipset Components in the Device Manager Y R 1. Close any running applications. 2. Insert the ADLINK All-in-One DVD.
MXC-6300 3.3 Installing the Ethernet driver 1. Close any running applications. 2. Insert the ADLINK All-in-One DVD. The drivers are located in: x:\Driver Installation\Matrix\MXC-6300\Win7_32bit\LANIntel\ x:\Driver Installation\Matrix\MXC-6300\Win7_64bit\LANIntel\ where x: denotes the DVD-ROM drive. Y R 3. Execute setup.exe and follow onscreen instructions to complete the setup. A IN IM 4. After installation is complete, reboot the system. 3.
USB3.0\ x:\Driver Installation\Matrix\MXC-6300\Win7_64bit\ USB3.0\ where x: denotes the DVD-ROM drive. 3. Execute Setup.exe and follow onscreen instructions to complete the setup. 4. After installation is complete, reboot the system. Y R 3.6 Installing the USB 3.0 driver The MXC-6300 supports USB 3.0 using Intel QM77 chipset. 1. Close any running applications. A IN IM 2. Insert the ADLINK All-in-One DVD. The drivers are located in: x:\Driver Installation\Matrix\MXC-6300\Win7_32bit\ USB3.
MXC-6300 ManageEngine\ where x: denotes the DVD-ROM drive. 3. Execute Setup.exe and follow onscreen instructions to complete the setup. 4. After installation is complete, reboot the system. 3.8 Installing the WDT driver/API Y R A WDT (watchdog timer) is a hardware mechanism resetting the system when the operating system or application is halted. A typical usage of WDT is to start the timers and periodically reset the timer, and when timer is expired, the system resets.
To install the DI/O driver/API: 1. Close any running applications. 2. Ensure that you have Administrator privileges. 3. Insert the ADLINK All-in-One DVD. The drivers are located in: x:\Driver Installation\Matrix\MXC-6300\Win7_32bit\DIO\ x:\Driver Installation\Matrix\MXC-6300\Win7_64bit\DIO\ where x: denotes the DVD-ROM drive. Y R 4. Execute Setup.exe and follow onscreen instructions to complete the setup. 5. After installation is complete, reboot the system. A IN IM 6.
MXC-6300 Appendix A: Power Consumption NOTE: Information in this Appendix is for power budget planning and design purposes only. Actual power consumption may differ based on final application. A.1 Power Consumption Reference Y R Power consumption as follows is based on lab data in which 24V DC is applied and current is measured by the DC power supply. The power consumption (W) is calculated as the product of applied voltage (V) and the current (A).
X Sufficient power supply for the entire system is required to meet these specifications. At least 100W at 24V input is recommended. X Heat generated by add-on PCI/PCIe adapters affects thermal stability. Additional heat dissipation is required when the system operates at high temperatures or in harsh environments with add-on adapters. X Power supply specifications shown are for total power consumption of all PCI/PCIe slots at once, not for single slot use. NOTE: Y R A IN IM A.
MXC-6300 Appendix B: BIOS Setup The Basic Input/Output System (BIOS) is a program that provides a basic level of communication between the processor and peripherals. In addition, the BIOS also contains codes for various advanced features applied to the MXC-6300. The BIOS setup program includes menus for configuring settings and enabling features of the MXC-6300. Most users do not need to use the BIOS setup program, as the MXC-6300 ships with default settings that work well for most configurations.
Y R L E BIOS Information A IN IM Shows current system BIOS code version and BIOS version. PC Health Status R P Hardware health on Super I/O supports Board Temperature, Fan Speed, CPU Voltage, +1.05V, +3.3V, +1.5V, +5V, +12.0V, and VBAT.
MXC-6300 System Time/System Date Allows adjustment of system time and date, as follows. 1. Highlight System Time or System Date using the up and down keys 2. Enter new values using the keyboard and select 3. Select < Tab > to move between fields. Y R X The date must be entered in MM/DD/YY format, and the time in HH:MM:SS. X The time is in 24-hour format. For example, 5:30 NOTE: A.M. appears as 05:30:00, and 5:30 P.M. as 17:30:00. B.
Accesses advanced options of the MXC-6300. B.2.1CPU Configuration Y R R P L E Limit CPUID Maximum A IN IM Disabled for Windows XP. Intel Virtualization Technology When enabled, a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology. EIST Enables/Disables Intel SpeedStep Technology. Turbo Mode Enables/Disables Intel TurboBoost Technology.
MXC-6300 C1E Function When enabled, let CPU enter enhanced C1 sleep state to save more power than C1. CPU C3 Support Enables/Disables CPU C3(ACPI C2) report to OS. Y R CPU C6 Support Enables/Disables CPU C6(ACPI C3) report to OS. CPU C7 Support A IN IM Enables/Disables CPU C7(ACPI C3) report to OS. B.2.
Serial Port 1~4 Configuration Allows election of port type (RS-232/422/485) for Serial Ports 1 and 2 only Intel LAN 82579LM Enables/Disables onboard Intel 82579LM LAN controller Y R Launch Intel 82579LM LAN PXE OpROM Enables or disables execution of LAN boot-rom to add boot option for legacy network devices Intel LAN WGI210IT A IN IM Enables/Disables onboard Intel WGI210IT LAN controller Launch Intel WGI210IT LAN PXE OpROM Enables/Disables execution of LAN boot-rom to add boot option for legacy networ
MXC-6300 B.2.
System Watchdog Enables/disables system internal watchdog to prevent boot failure during system POST stage Wake System With Fixed Time Enables/disables System Wake on Alarm event Y R Wake on Ring Enables/disables System Wake on RI event B.2.
MXC-6300 CFAST (Internal) Hot Plug Sets this port as hot pluggable B.2.
Enables Console Redirection for remote management of a Windows Server OS through the port selected by Out-of-Band Mgmt Port Out-of-Band Mgmt Port Selects the COM Port for remote management of a Windows OS Y R Terminal Type Selects the transmission protocol for remote terminal console B.2.
MXC-6300 B.
B.
MXC-6300 Quiet Boot Option Description Disabled Directs BIOS to display POST messages Enabled Directs BIOS to display the OEM logo. Fast Boot Y R Option Description Disabled Directs BIOS to perform all POST tests. Enabled Directs BIOS to skip certain POST tests to boot faster.
Hard Drive BBS Priorities Y R L E A IN IM Specifies the priority of boot devices. All installed boot devices are detected during POST and displayed. Move the cursor to target Boot Option # and select.
MXC-6300 B.5 Security Y R L E A IN IM If only Administrator’s password is set, only access to Setup is limited and requested when entering Setup. If only the user’s password is set, it acts as a power-on password and must be entered to boot or enter setup. In Setup the user receives Administrator rights.
B.6 Save & Exit Y R L E A IN IM Discard Changes and Exit Discards all changes and exits BIOS setup R P Save Changes and Reset Saves all changes and reboots the system, with new settings taking effect Discard Changes Resets system setup without saving any changes Restore Defaults Sets all BIOS options to default settings, designed for maximum system stability but less than maximum performance. Select Restore Defaults if the computer encounters system configuration problems.
MXC-6300 Save as User Defaults Saves all changes to this point as user defaults Restore User Defaults Restores user defaults to all setup options Launch EFI Shell from filesystem device Y R Attempts to launch EFI Shell application (Shellx64.
Y R R P 82 L E A IN IM BIOS Setup
MXC-6300 Appendix C: Activating RAID Function The Matrix MXC-6300 utilizes Intel® Rapid Storage Technology provided by the Intel QM57 chipset, and supports RAID 0 and RAID 1 levels, differentiated as follows. Y R RAID 0 Striping RAID 0 (Striping): Maximum Disk I/ O performance, but no disk error tolerance R P A2 A1 A3 A2 A4 A2 A5 A3 A6 A3 A7 A4 A8 A4 Disk 1 Disk 2 L E RAID 1 (Mirrored): Data is strongly secured, but total disk size is halved.
Ensure all data on the disks to be used in the RAID array is fully backed up. Refer to section 2.2 to install the two hard disks in the chassis. It is strongly recommended that both HDDs are the same model and size for maximal compatibility. Y R CAUTION: C.1 RAID Activation in System Manangement 1. In the BIOS menu, enter “SATA Configuration” under “Advanced” tab R P L E A IN IM 2. Set SATA Mode to “RAID Mode”, and save and exit BIOS.
MXC-6300 Y R R P L E Activating RAID Function A IN IM 85
C.1.1 Intel Matrix Storage Manager After the SATA is set to RAID mode, the Intel Matrix Storage Manager appears in POST. 1. Select “Ctrl + I” to enter the utility when prompted. Y R L E A IN IM The menu lists the 2 installed HDDs as “Non-RAID Disk” since the RAID volume has not yet been created. R P 2. Select “Create RAID Volume” to continue.
MXC-6300 Y R A IN IM 3. In the menu, set the Volume name, choose the RAID level (from RAID0 (Stripe) and RAID1 (Mirror)) and configure other parameters. Select “Create Volume”. All data will be erased from the HDD.
Y R A IN IM 4. After the RAID Volume is created, it should appear in the RAID volume list.
MXC-6300 C.2 OS Activation C.2.1 Windows XP Download the MXC-6300 RAID drivers from the ADLINK website, unzip, and copy the files to a floppy disk, and connect to the MXC6300 via a USB floppy disk drive. 1. Begin Windows XP installation. When the disk is requested, press F6. Y R R P L E A IN IM The Installer will show no storage devices before installing the RAID drivers. 2. When an additional device driver is requested, press S.
Y R A IN IM An Intel controller list is displayed. 3. From the list, select “Intel® Mobile Express Chipset SATA RAID Controller”. Required drivers are copied from the floppy disk.
MXC-6300 Y R ® A IN IM 4. The Intel Mobile Express Chipset SATA RAID Controller is displayed in the mass storage device list. OS Installation can continue.
C.2.2 Windows 7 Download the MXC-6300 RAID drivers from the ADLINK website, and unzip and copy the files to a USB storage device. Connect the connect the storage device to the MXC-6300 and start Windows 7 installation. When the Installer requests an installation location, select Load Driver.
MXC-6300 Navigate to the driver files and select OK to load. Y R L E A IN IM Select Intel Mobile Express Chipset SATA RAID Controller. The required drivers are then copied. After the drivers are loaded, OS installation to the RAID volume can continue.
Y R R P 94 L E A IN IM Activating RAID Function
MXC-6300 Appendix D: Watchdog Timer (WDT) Function Library This appendix describes use of the watchdog timer (WDT) function library for the MXC-6300 controller. The watchdog timer is a hardware mechanism provided to reset the system if the operating system or an application stalls. After starting, the watchdog timer in the application must be periodically reset before the timer expires. Once the watchdog timer expires, a hardware-generated signal is sent to reset the system. D.
unit. ResetWDT or StopWDT should be called before the expiration of watchdog timer, or the system will reset. Syntax C/C++ BOOL SetWDT(BYTE tick, BYTE unit) Parameters Y R tick Specify the number of ticks for watchdog timer. A valid value is 1 - 255. unit A IN IM Specifies the timeout ticks of the watchdog timer. Value Description 0 The unit for one tick is one second. For example, when one tick is specified as 100 and the unit as 0, the timeout value is 100 seconds.
MXC-6300 Return codes TRUE if watchdog timer is successfully started. FALSE if watchdog timer is failed to start. ResetWDT Reset the watchdog timer. The invocation of ResetWDT allows restoration of the watchdog timer to the initial timeout value specified in SetWDT function. ResetWDT or StopWDT should be called before the expiration of the watchdog timer, or the system will reset. Syntax C/C++ BOOL ResetWDT() Parameters None Return codes Y R A IN IM TRUE if watchdog timer is successfully reset.
D.2 WDT with DOS/Linux Under Linux, please program WDT function using the same LPC IO registers according to the sample program as follows. #include #include Y R #include
MXC-6300 outp(0x2E, regoffset); outp(0x2F, data); } main(void) { unsigned int count; /* print program title Y R */ printf("-----------------MXC-6300 WDT Demo----------------\n"); A IN IM printf("Init and config ports<<<<<<<<<<<<<<<<<<<<<<<<<\n"); GPIO printf("--------------------------------------------------\n"); EnterConfig(); /* config WDT registers */ L E w_reg(0x07,0x08); w_reg(0x30,0x01); w_reg(0xF5,0x00); R P w_reg(0xF7,0x00); /* enable value */ keyboard interrupt to reset WDT
/* set timeout value as 10 seconds */ /* WDT start automatically while timeout value is set */ w_reg(0xF6,0x0A); printf("--------------------------------------------------\n"); printf("WDT is set now.<<<<<<<<<<<<<<<<<<\n"); and Y R counting down printf("--------------------------------------------------\n"); A IN IM for(count=10;count!=0;count--) { printf("Countdown %2d : 0xF6=%2x Press any key invoke keyboard interrupt.
MXC-6300 Appendix E: Digital Input/Output Function Library ADMX_DIO_Init Reserves system resources for digital input/output API service. Must be called before using other MXC-6300 matrix_dio functions.
Parameter(s) None Return codes NoError DI_ReadPort Y R Reads digital data from the specified digital input port.
MXC-6300 Parameter(s) Value Digital datawritten to the specified port Valid values include: MXC-6300 16-bit data Return codes NoError ErrorInvalidCardNumber ErrorCardNotRegistered ErrorFuncNotSupport ErrorInvalidIoChannel DO_ReadPort Y R A IN IM Reads back digital data output from the specified digital output port.
DI_ReadLine Reads the digital logic state of the digital line in the specified port. Syntax C/C++ and Borland C++ I16 DI_ReadLine (U16 Line, U16 *State) Y R Visual Basic DI_ReadLine (ByVal Line As Integer, State As Integer) As Integer Parameter(s) Line Digital line to be read.
MXC-6300 DO_WriteLine(ByVal Line As Integer, ByVal State As Integer) As Integer Parameter(s) Line Digital line to be read. Valid values include: MXC-6300 0 to 15 Y R State New digital logic state 0 or 1. Return codes A IN IM NoError ErrorInvalidCardNumber ErrorCardNotRegistered ErrorFuncNotSupport ErrorInvalidIoChannel DO_ReadLine Reads back the digital logic state of the specified digital output line of the specified port.
Return codes NoError ErrorInvalidCardNumber ErrorCardNotRegistered ErrorFuncNotSupport ErrorInvalidIoChannel DIO_INT_Event_Message Y R Controls and notifies user application when a specified interrupt event occurs. Notification is implemented through a userspecified callback function or the Windows PostMessage API. When a new event message is added, it remains active until the function is called by setting the argument mode to 0, removing the specified interrupt event message.
MXC-6300 windowHandle Handle to the destination window for a Windows message when the specified INT event occurs. If windowHandle is 0, no Windows messages will be sent. message User-defined message. When the specified INT event occurs, MXC-6300 matrix_dio remits this message. The message can be of any value. In Windows, the message can be set to a value including any Windows predefined messages, such as WM_PAINT.
DIO_INT1_EventMessage (ByVal Int1Mode As Integer, ByVal windowHandle As Long, ByVal message As Long, ByVal callbackAddr As Long) As Integer Parameter(s) Int1Mode Interrupt mode of INT1. Y R Valid values include: MXC-6300, INT1_DISABLE, INT1_EXT_SIGNAL INT1 by COS of Ch0 of Port 0 windowHandle Handle to the destination window for a Windows message when the specified INT event occurs. If windowHandle is 0, no Windows messages will be sent. message A IN IM User-defined message.
MXC-6300 notification is performed through a user-specified callback function or the Windows PostMessage API. Syntax C/C++ and Borland C++ I16 DIO_INT2_EventMessage (I16 Int2Mode, HANDLE windowHandle, U32 message, void *callbackAddr()) Y R Visual Basic DIO_INT2_EventMessage (ByVal Int2Mode As Integer, ByVal windowHandle As Long, ByVal message As Long, ByVal callbackAddr As Long) As Integer Parameter(s) Int2Mode A IN IM INT2 interrupt mode.
Return codes NoError ErrorInvalidCardNumber ErrorCardNotRegistered ErrorFuncNotSupport DIO_ SetDualInterrupt Informs the MXC-6300 matrix_dio library of the two interrupt source modes of a dual-interrupt system and returns dual interrupt events. If an interrupt is generated, the corresponding interrupt event is signaled. The application uses Win32 wait functions, such as WaitForSingleObject or WaitForMultipleObjects to determine interrupt event status.
MXC-6300 hEvent Returned dual-interrupt event handles, where status of a dualinterrupt event indicates whether an interrupt is generated for cards comprising dual-interrupt systems Return codes NoError ErrorInvalidCardNumber ErrorCardNotRegistered ErrorFuncNotSupport R P L E Y R A IN IM Digital Input/Output Function Library 111
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MXC-6300 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. Y R 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. There is risk of explosion if the battery is replaced with an incorrect type. Dispose of used batteries appropriately.
MXC-6000 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 Y R 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.
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 Y R ADLINK Technology, Inc.
