N e t w o r k Ap p l i a n c e FWS-7400 FWS-7400 1U Rackmount Network Appliance Platform 2 SATA 6.0 Gb/s, 2 USB3.0 1 PCI-E[x8] (Optional) 1 NIM (Optional) FWS-7400 Manual 1st Ed.
N e t w o r k Ap p l i a n c e FWS-7400 Copyright Notice This document is copyrighted, 2014. All rights are reserved. The original manufacturer reserves the right to make improvements to the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated, or transmitted in any form or by any means without the prior written permission of the original manufacturer. Information provided in this manual is intended to be accurate and reliable.
N e t w o r k Ap p l i a n c e FWS-7400 Acknowledgments All other products’ name or trademarks are properties of their respective owners. z AMI is a trademark of American Megatrends Inc. z CompactFlash™ is a trademark of the Compact Flash Association. z Intel®, Core®, and Xeon Quad Core, are trademarks of Intel® Corporation. z Microsoft Windows® is a registered trademark of Microsoft Corp. z ISoundBlaster is a trademark of Creative Labs, Inc.
N e t w o r k Ap p l i a n c e FWS-7400 Packing List Before you begin installing your card, please make sure that the following materials have been shipped: z 1 FWS-7400 z 1 DVD-ROM for manual (in PDF format) and drivers z 2 SATA HDD Cable z 2 SATA Power Cable z 1 RJ-45 Console Cable z 1 CPU Heatsink z 1 Ear Bracket Module, Black If any of these items should be missing or damaged, please contact your distributor or sales representative immediately.
N e t w o r k Ap p l i a n c e FWS-7400 Contents Chapter 1 General Information 1.1 Introduction................................................................ 1-2 1.2 Features .................................................................... 1-3 1.3 Specifications ............................................................ 1-4 1.4 General System Information ..................................... 1-7 Chapter 2 Quick Installation Guide 2.1 Safety Precautions ............................................
N e t w o r k Ap p l i a n c e FWS-7400 3.1 System Test and Initialization ................................... 3-2 3.2 AMI BIOS Setup ........................................................ 3-3 Chapter 4 Driver Installation 4.1 Installation ................................................................. 4-3 Appendix A Programming the Watchdog Timer A.1 Watchdog Timer Initial Program ............................A-2 Appendix B I/O Information B.1 I/O Address Map .......................................
N e t w o r k Ap p l i a n c e FWS-7400 Chapter 1 General Information Chapter 1 General Information 1- 1
N e t w o r k Ap p l i a n c e FWS-7400 1.1 Introduction FWS-7400 adopts Intel® 4th generation Core™ processors. The chipset is equipped with Intel® H81. In addition, the system memory features two 240-pin DDR3 1333/1600 MHz DIMM up to 16GB and supports dual-channel. FWS-7400 deploys six Gigabit Ethernet ports (optional up to 2 pairs LAN bypass function). The condensed appearance of FWS-7400 features 1U form factor that fits nicely into a space-limited environment.
N e t w o r k Ap p l i a n c e FWS-7400 1.2 Features z 1U Rackmount 6 LAN Ports Network Appliance z Intel® 4th Generation Core™ Processor z 240-Pin Dual-Channel DDR3 1333/1600MHz DIMM x 2 (Up To 16 GB) z Gigabit Ethernet x 6 with Optional 2-Pair LAN Bypass Function z SATA 6.0 Gb/s x 2 (Optional 3 SATA Ports) z Internal 3.5” SATA HDD x 1 or 2.5” SATA HDD x 2 z LCM with Keypad x 1 z RJ-45 for Console x 1, USB3.
N e t w o r k Ap p l i a n c e FWS-7400 1.3 Specifications System Form Factor 1U 6-port Network Appliance Processor Intel® 4th generation Core™ Processor System Memory 240-pin Dual-Channel DDR3 1333/1600 DIMM Socket x 2, up to 16 GB Chipset Intel® H81 Ethernet (Optional) Intel® 82583L controller, Gigabit Ethernet x 6 (optional up to 2 pairs LAN bypass function) BIOS AMI BIOS ROM Serial ATA SATA 6.
N e t w o r k Ap p l i a n c e FWS-7400 HDD Active LED x 1 USB port x 2 RJ-45 port with LED x 6 RJ-45 console x 1 LCM Display and 4 keypad x 1 Software programming switch x 1 Rear I/O Panel AC power input x 1 Power switch x 1 Expansion slot x 2 (optional PCI-E[x8] slot x 1) Color Black LCM 16 x 2 characters with 4 keypad control Power Supply Flex ATX 250W Dimension 16.9” x 12.01” x 1.
N e t w o r k Ap p l i a n c e FWS-7400 Environmental Operating Temperature 32°F~104°F (0°C~40°C) Storage Temperature -4°F~140°F (-20°C~60°C) Operating Humidity 10~80% relative humidity, non-condensing Storage Humidity 10~80% @ 40°C, non-condensing Vibration 0.5 g rms/ 5~500 Hz/ operation (3.5” Hard Disk Drive) 1.5 g rms/ 5~500 Hz/ non-operation 10 G peak acceleration (11 m sec. Shock duration), operation 20 G peak acceleration (11 m sec.
N e t w o r k Ap p l i a n c e FWS-7400 1.4 General System Information Front View LCM Panel RJ-45 Console x 1 10/100/1000Base-TX x 6 USB3.
N e t w o r k Ap p l i a n c e FWS-7400 Chapter 2 Quick Installation Guide Chapter 2 Quick Installation Guide 2-1
N e t w o r k Ap p l i a n c e FWS-7400 2.1 Safety Precautions The installation is intended for technically qualified personnel who have experience installing and configuring system boards. The equipment can be installed in a restricted access location (RAL) only. A restricted access location is a site location for equipment where the following criteria apply: 01. Access can only be gained by service persons or by users who have been trained on the restrictions and the precautions for this specific site.
N e t w o r k Ap p l i a n c e FWS-7400 2.
N e t w o r k Ap p l i a n c e Solder Side Chapter 2 Quick Installation Guide 2-4 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 2.
N e t w o r k Ap p l i a n c e FWS-7400 2.4 List of Jumpers The board has a number of jumpers that allow you to configure your system to suit your application. The table below shows the function of each of the board's jumpers: Label Function JP2 Auto Power Button CMOS Clear CMOS 2.5 List of Connectors The board has a number of connectors that allow you to configure your system to suit your application.
N e t w o r k Ap p l i a n c e FWS-7400 LAN1 10/100/1000 Base Ethernet Connector LAN2 10/100/1000 Base Ethernet Connector LAN3 10/100/1000 Base Ethernet Connector LAN4 10/100/1000 Base Ethernet Connector LAN5 10/100/1000 Base Ethernet Connector LAN6 10/100/1000 Base Ethernet Connector LAN7 10/100/1000 Base Ethernet Connector LAN8 10/100/1000 Base Ethernet Connector CPU_FAN1 4 Pin Fan Connector SYS_FAN1 4 Pin Fan Connector SYS_FAN2 4 Pin Fan Connector CN7 SATA Power Connector CN11~C
N e t w o r k Ap p l i a n c e FWS-7400 2.6 Setting Jumpers You configure your card to match the needs of your application by setting jumpers. A jumper is the simplest kind of electric switch. It consists of two metal pins and a small metal clip (often protected by a plastic cover) that slides over the pins to connect them. To “close” a jumper you connect the pins with the clip. To “open” a jumper you remove the clip. Sometimes a jumper will have three pins, labeled 1, 2 and 3.
N e t w o r k Ap p l i a n c e FWS-7400 2.7 Clear CMOS (CMOS) CMOS Function 1-2 Protected (Default) 2-3 Clear 2.8 Auto Power Button (JP2) JP2 Function 1-2 Power ON by Button (Default) 2-3 Auto Power ON 2.9 Front Panel Connector (FP1) Pin Signal Pin Signal 1 External Speaker (+) 2 Key Board Lock (+) 3 NC 4 GND 5 Internal Buzzer (-) 6 I2C Bus SMB Clock 7 External Speaker (-) 8 Note: Internal Buzzer Enable: Close Pin 5,7 I2C Bus SMB Data 2.
N e t w o r k Ap p l i a n c e FWS-7400 2.11 USB2.0 Port PIN Header (USB2) Pin Signal Pin Signal 1 VCC 20 NC 2 NC 19 VCC 3 NC 18 NC 4 GND 17 NC 5 NC 16 GND 6 NC 15 NC 7 GND 14 NC 8 USBP_0N_C 13 GND 9 USBP_0P_C 12 USBP_1N_C 10 NC 11 USBP_1P_C 2.12 COM Port Connector (COM2) Pin Signal Pin Signal 1 DCD2X 2 SIN2X 3 SOUT2X 4 DTR2X 5 GND 6 DSR2X 7 RTS2X 8 CTS2X 9 RI2X 10 NC 2.
N e t w o r k Ap p l i a n c e 7 FWS-7400 NC Chapter 2 Quick Installation Guide 2-11
N e t w o r k Ap p l i a n c e FWS-7400 2.
N e t w o r k Ap p l i a n c e FWS-7400 Step 2: Release the lock pole of the CPU bracket Chapter 2 Quick Installation Guide 2-13
N e t w o r k Ap p l i a n c e Step 3: Lift up the CPU bracket Step 4 : Lift up the CPU cover Chapter 2 Quick Installation Guide 2-14 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Step 5 : Place the CPU to the socket and have the two fillisters locked properly Chapter 2 Quick Installation Guide 2-15
N e t w o r k Ap p l i a n c e FWS-7400 Step 6 : Close the CPU bracket and lock the pole to the position Chapter 2 Quick Installation Guide 2-16
N e t w o r k Ap p l i a n c e FWS-7400 Step 7 : Cover the Heatsink on the CPU and watch out the direction of the Heatsink that did not against the airflow Step 8: Fasten the four screws to lock the air duct Chapter 2 Quick Installation Guide 2-17
N e t w o r k Ap p l i a n c e FWS-7400 2.15 Installing the Two 2.
N e t w o r k Ap p l i a n c e FWS-7400 Step 3: put the screw into cushion Step 4: put the assembled cushions to the upper place of the 2.
N e t w o r k Ap p l i a n c e FWS-7400 Step 5: put the assembled cushions to the lower place of the 2.
N e t w o r k Ap p l i a n c e FWS-7400 Step 7: Lock the second HDD to the upper cushions with four screws Step 8: Lock the HDD bracket to the chassis with four screws Chapter 2 Quick Installation Guide 2-21
N e t w o r k Ap p l i a n c e FWS-7400 Step 9: Connect the SATA cable and power cable to the HDD in lower place Step 10: Connect the SATA cable and power cable to the HDD in upper place Chapter 2 Quick Installation Guide 2-22
N e t w o r k Ap p l i a n c e FWS-7400 Below Table for China RoHS Requirements 产品中有毒有害物质或元素名称及含量 AAEON Boxer/ Industrial System 有毒有害物质或元素 部件名称 铅 汞 镉 (Pb) (Hg) (Cd) (Cr(VI)) (PBB) (PBDE) × ○ ○ ○ ○ ○ × ○ ○ ○ ○ ○ × ○ ○ ○ ○ ○ × ○ ○ ○ ○ ○ 硬盘 × ○ ○ ○ ○ ○ 电源 × ○ ○ ○ ○ ○ 印刷电路板 及其电子组件 外部信号 连接器及线材 外壳 中央处理器 与内存 六价铬 多溴联苯 多溴二苯醚 O:表示该有毒有害物质在该部件所有均质材料中的含量均在 SJ/T 11363-2006 标准规定的限量要求以下。 X:表示该有毒有害物质至少在该部件的某一均质材料中的含量超出 SJ/T 11363-2006 标准规定的限量要求。 备注: 一、此产品所标示之环保使用期限,系指在一般正常
N e t w o r k Ap p l i a n c e FWS-7400 Chapter 3 AMI BIOS Setup Chapter 3 AMI BIOS Setup 3-1
N e t w o r k Ap p l i a n c e FWS-7400 3.1 System Test and Initialization These routines test and initialize board hardware. If the routines encounter an error during the tests, you will either hear a few short beeps or see an error message on the screen. There are two kinds of errors: fatal and non-fatal. The system can usually continue the boot up sequence with non-fatal errors.
N e t w o r k Ap p l i a n c e FWS-7400 backup for data retention. You have to replace the battery when it finally runs down. 3.2 AMI BIOS Setup AMI BIOS ROM has a built-in Setup program that allows users to modify the basic system configuration. This type of information is stored in battery-backed CMOS RAM and BIOS NVRAM so that it retains the Setup information when the power is turned off. Entering Setup Power on the computer and press or immediately. This will allow you to enter Setup.
N e t w o r k Ap p l i a n c e Setup Menu Setup submenu: Main Chapter 3 AMI BIOS Setup 3-4 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Setup submenu: Advanced Chapter 3 AMI BIOS Setup 3-5
N e t w o r k Ap p l i a n c e Super IO Configuration Chapter 3 AMI BIOS Setup 3-6 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Serial Port 1 Configuration Options summary: Serial Port Disabled Enabled Enable or Disable Serial Port (COM) Serial Port Auto IO=3F8h; IRQ=4; IO=3F8h; IRQ=3,4,5,6,7,9,10,11,12; IO=2F8h; IRQ=3,4,5,6,7,9,10,11,12; IO=3E8h; IRQ=3,4,5,6,7,9,10,11,12; IO=2E8h; IRQ=3,4,5,6,7,9,10,11,12; Select an optimal setting for Super IO device.
N e t w o r k Ap p l i a n c e FWS-7400 Serial Port 2 Configuration Options summary: Serial Port Disabled Enabled Enable or Disable Serial Port (COM) Serial Port Auto IO=2F8h; IRQ=3; IO=3F8h; IRQ=3,4,5,6,7,9,10,11,12; IO=2F8h; IRQ=3,4,5,6,7,9,10,11,12; IO=3E8h; IRQ=3,4,5,6,7,9,10,11,12; IO=2E8h; IRQ=3,4,5,6,7,9,10,11,12; Select an optimal setting for Super IO device.
N e t w o r k Ap p l i a n c e FWS-7400 Parallel Port Configuration Options summary: Parallel Port Disabled Enabled Enable or Disable Serial Port (COM) Change Settings Auto IO=378h; IRQ=5; IO=378h; IRQ=5,6,7,9,10,11,12; IO=278h; IRQ=5,6,7,9,10,11,12; IO=3BCh;IRQ=5,6,7,9,10,11,12; Select an optimal setting for Supoer IO device. Device Mode Standard Parallel Port Mode EPP Mode ECP Mode EPP Mode & ECP Mode Change the Printer Port mode.
N e t w o r k Ap p l i a n c e H/W Monitor Chapter 3 AMI BIOS Setup 3-10 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Smart Fan Function Options summary: Smart Fan Mode Full on Mode Automatic Mode Manual Mode Smart Fan Mode Select Fan off temperature limit 15 (0-127) Fan will of when temperature lower than this limit. Fan start temperature limit 45 (0-127) Fan will work when temperature higher than this limit. Fan start PWM 35 (0-255) Fan will start with this PWM value(Range 0-255).
N e t w o r k Ap p l i a n c e PWM SLOPE SETTING 0.125 PWM 0.25 PWM 0.5 PWM 1 PWM 2 PWM 4 PWM 8 PWM 15.
N e t w o r k Ap p l i a n c e FWS-7400 Serial Port Console Redirection Options summary: Console Redirection Disabled (COM2) Enabled (COM1) Console Redirection Enabled or Disabled.
N e t w o r k Ap p l i a n c e FWS-7400 Console Redirection Settings Options summary: Terminal Type VT100 VT100+ VT-UTF8 ANSI Emulation: ANSI: Extended ASCII char set. VT100: ASCII char set. VT100+: Extends VT100 to support color, function keys, etc. VT-UTF8: Uses UTF8 encoding to map Unicode chars onto 1 or more bytes. Bits per second 9600 19200 38400 57600 115200 Selects serial port transmission speed. The speed must be matched on the other side. Long or noisy lines may require lower speeds.
N e t w o r k Ap p l i a n c e FWS-7400 Parity None Even Odd Mark Space A parity bit can be sent with the data bits to detect some transmission errors. Even: parity bit is 0 if the num of 1’s in the data bits is even. Odd: parity bit is 0 if num of 1’s in the data bits is odd. Mark: parity bit is always 1. Space: Parity bit is always 0. Mark and Space Parity do not allow for error detection. Stop Bits 1 2 Stop bits indicate the end of a serial data packet. ( A start bit indicates the beginning).
N e t w o r k Ap p l i a n c e VT-UTF8 Combo Key Support FWS-7400 Disabled Enabled Enable VT-UTF8 Combination Key Support for ANSI/VT100 terminals Recorder Mode Disabled Enabled On this mode enabled only text will be send. This is to capture Terminal data.
N e t w o r k Ap p l i a n c e FWS-7400 Power Management Options summary: Power Mode ATX Type AT Type Select Power Supply Mode. ACPI Sleep State Suspend Disabled S3 only (Suspend to RAM) Select ACPI sleep state the system will enter when the SUSPEND button is pressed. Restore AC Power Loss Power Off Power On Last State Select AC power state when power is re-applied after a power failure. Resume on Ring Disabled Enabled Enable/Disable Resume from RI# signal.
N e t w o r k Ap p l i a n c e FWS-7400 Enabled Enable or disable System wake on alarm event. When enable, System will wake on the hr::min::sec specified. Wake up day 0 Select 0 for daily system wake up, 1-31 for which day of month that you would like the system to wake up. Wake up hour 0 Select 0-23 For example enter 3 for 3am and 15 for 3pm. Wake up minute 0 0-59 Wake up second 0 0-59 Wake system with Dynamic Time Disabled Enabled Enable or disable System wake on alarm event.
N e t w o r k Ap p l i a n c e FWS-7400 CPU Configuration Chapter 3 AMI BIOS Setup 3-19
N e t w o r k Ap p l i a n c e FWS-7400 Options summary : Hyper-threading Disabled Enabled Enabled for Windows XP and Linux (OS optimized for Hyper-Threading Technology) and Disabled for other OS (OS not optimized for Hyper-Threading Technology). When Disabled only on thread per enabled core is enabled. Intel Virtualization Technology Disabled Enabled When enabled, a VMM can utilize the additional hardware capabilities provided by Vanderpool Technology.
N e t w o r k Ap p l i a n c e FWS-7400 SATA Configuration (IDE) Options summary : SATA Controller(s) Disabled Enabled Enable or disable SATA Device. SATA Mode Selection IDE AHCI RAID Determines how SATA controller(s) operate.
N e t w o r k Ap p l i a n c e FWS-7400 SATA Configuration (AHCI) Options summary : SATA Controller Speed Disabled Enabled Enable or disable SATA Device. SATA Mode Selection Default Gen1 Gen2 Gen3 Indicates the maximum speed the SATA controller can support. Port Disabled Enabled Enable or Disable SATA Port Hot Plug Disabled Enabled Designates this port as Hot Pluggable. External SATA Disabled Enabled External SATA Support.
N e t w o r k Ap p l i a n c e FWS-7400 SATA Device Type Hard Disk Drive Solid State Drive Indentify the SATA port is connected to Solid State Drive or Hard Disk Drive. Spin Up Device Disabled Enabled On an edge detect from 0 to 1, the PCH starts a COMRESET initialization sequence to device.
N e t w o r k Ap p l i a n c e FWS-7400 SATA Configuration (RAID) Options summary : SATA Controller Speed Disabled Enabled Enable or disable SATA Device. SATA Mode Selection Default Gen1 Gen2 Gen3 Indicates the maximum speed the SATA controller can support. Port Disabled Enabled Enable or Disable SATA Port Hot Plug Disabled Enabled Designates this port as Hot Pluggable. External SATA Disabled Enabled External SATA Support.
N e t w o r k Ap p l i a n c e FWS-7400 SATA Device Type Hard Disk Drive Solid State Drive Indentify the SATA port is connected to Solid State Drive or Hard Disk Drive. Spin Up Device Disabled Enabled On an edge detect from 0 to 1, the PCH starts a COMRESET initialization sequence to device.
N e t w o r k Ap p l i a n c e FWS-7400 USB Configuration Options summary: Legacy USB Support Enabled Disabled Auto Enables Legacy USB support. AUTO option disables legacy support if no USB devices are connected. DISABLE option will keep USB device available only for EFI applications.
N e t w o r k Ap p l i a n c e FWS-7400 LAN Bypass Configuration Options summary : STATUS LED CTRL LED OFF RED LED ON RED LED BLINK RED LED FAST BLINK GREEN LED ON GREEN LED BLINK GREEN LED FAST BLINK STATUS LED CTRL help. LAN kit Power ON Bypass PassTru Setting LAN kit function behavior when power on.(Bypass/Pass Through) LAN kit Power Off Bypass PassTru Setting LAN kit function behavior when power off.
N e t w o r k Ap p l i a n c e WDT FWS-7400 Bypass Reset WDT function select, Reset: Reset System. Bypass: Reset LAN kits to Bypass mode.
N e t w o r k Ap p l i a n c e FWS-7400 Setup submenu: Chipset Chapter 3 AMI BIOS Setup 3-29
N e t w o r k Ap p l i a n c e FWS-7400 PCH-IO Configuration Options summary: PCI-E LAN Port n Disabled Enabled Control the PCI Express Root Port.
N e t w o r k Ap p l i a n c e FWS-7400 System Agent (SA) Configuration Options summary : VT-d Disabled Enabled Check to enable VT-d function on MCH.
N e t w o r k Ap p l i a n c e Memory Configuration Chapter 3 AMI BIOS Setup 3-32 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Boot Options summary : Quite Boot Disabled Enabled Enables or disables Quiet Boot option. Launch 82574L # PXE Disabled Enabled Enable or Disable Legacy Boot Option for 82574 # .
N e t w o r k Ap p l i a n c e FWS-7400 Security Change User/Supervisor Password You can install a Supervisor password, and if you install a supervisor password, you can then install a user password. A user password does not provide access to many of the features in the Setup utility. If you highlight these items and press Enter, a dialog box appears which lets you enter a password. You can enter no more than six letters or numbers. Press Enter after you have typed in the password.
N e t w o r k Ap p l i a n c e FWS-7400 Setup submenu: Exit Chapter 3 AMI BIOS Setup 3-35
N e t w o r k Ap p l i a n c e FWS-7400 Chapter 4 Driver Installation Chapter 4 Driver Installation 4-1
N e t w o r k Ap p l i a n c e FWS-7400 The FWS-7400 comes with an AutoRun DVD-ROM that contains all drivers and utilities that can help you to install the driver automatically. Insert the driver DVD, the driver DVD-title will auto start and show the installation guide. If not, please follow the sequence below to install the drivers. Follow the sequence below to install the drivers: Step 1 – Install Chipset Driver Step 2 – Install VGA Driver Step 3 – Install USB3.
N e t w o r k Ap p l i a n c e 4.1 FWS-7400 Installation Insert the FWS-7400 DVD-ROM into the DVD-ROM drive and install the drivers from Step 1 to Step 6 in order. Step 1 – Install Chipset Driver 1. Click on the Step1 - Chipset folder and double click on the iINF_allOS_9.4.0.1027.exe file 2. Follow the instructions that the window shows 3. The system will help you install the driver automatically Step 2 – Install VGA Driver 1.
N e t w o r k Ap p l i a n c e FWS-7400 your system is 2. Double click on the Autorun.exe file 3. Follow the instructions that the window shows 4. The system will help you install the driver automatically Step 5 – Install ME Driver 1. Click on the Step5 - ME folder and double click on the Setup.exe file 2. Follow the instructions that the window shows 3. The system will help you install the driver automatically Step 6 – Install IRST Driver 1.
N e t w o r k Ap p l i a n c e FWS-7400 Appendix A Programming the Watchdog Timer Appendix A Programming the Watchdog Timer A-1
N e t w o r k Ap p l i a n c e FWS-7400 A.1 Watchdog Timer Initial Program Table 1 : SuperIO relative register table Default Value Index 0x2E(Note1) Data 0x2F(Note2) Note SIO MB PnP Mode Index Register 0x2E or 0x4E SIO MB PnP Mode Data Register 0x2F or 0x4F Table 2 : Watchdog relative register table LDN Register BitNum Value Note Time of watchdog timer Timer Counter 0x07(Note3) 0x73(Note4) (Note24) (0~255) This register is byte access Select time unit.
N e t w o r k Ap p l i a n c e FWS-7400 ************************************************************************************ // SuperIO relative definition (Please reference to Table 1) #define byte SIOIndex #define byte SIOData //This parameter is represented from Note1 //This parameter is represented from Note2 #define void IOWriteByte(byte IOPort, byte Value); #define byte IOReadByte(byte IOPort); // Watch Dog relative definition (Please reference to Table 2) #define byte TimerLDN //This p
N e t w o r k Ap p l i a n c e FWS-7400 ************************************************************************************ VOID Main(){ // Procedure : AaeonWDTConfig // (byte)Timer : Time of WDT timer.(0x00~0xFF) // (boolean)Unit : Select time unit(0: second, 1: minute). AaeonWDTConfig(); // Procedure : AaeonWDTEnable // This procudure will enable the WDT counting.
N e t w o r k Ap p l i a n c e FWS-7400 ************************************************************************************ // Procedure : AaeonWDTEnable VOID AaeonWDTEnable (){ WDTEnableDisable(EnableLDN, EnableReg, EnableBit, 1); } // Procedure : AaeonWDTConfig VOID AaeonWDTConfig (){ // Disable WDT counting WDTEnableDisable(EnableLDN, EnableReg, EnableBit, 0); // Clear Watchdog Timeout Status WDTClearTimeoutStatus(); // WDT relative parameter setting WDTParameterSetting(); } VOID WDTEnableDisable
N e t w o r k Ap p l i a n c e FWS-7400 ************************************************************************************ VOID SIOEnterMBPnPMode(){ Switch(SIOIndex){ Case 0x2E: IOWriteByte(SIOIndex, 0x87); IOWriteByte(SIOIndex, 0x01); IOWriteByte(SIOIndex, 0x55); IOWriteByte(SIOIndex, 0x55); Break; Case 0x4E: IOWriteByte(SIOIndex, 0x87); IOWriteByte(SIOIndex, 0x01); IOWriteByte(SIOIndex, 0x55); IOWriteByte(SIOIndex, 0xAA); Break; } } VOID SIOExitMBPnPMode(){ IOWriteByte(SIOIndex, 0x02); IOWriteByte(
N e t w o r k Ap p l i a n c e FWS-7400 ************************************************************************************ VOID SIOBitSet(byte LDN, byte Register, byte BitNum, byte Value){ Byte TmpValue; SIOEnterMBPnPMode(); SIOSelectLDN(byte LDN); IOWriteByte(SIOIndex, Register); TmpValue = IOReadByte(SIOData); TmpValue &= ~(1 << BitNum); TmpValue |= (Value << BitNum); IOWriteByte(SIOData, TmpValue); SIOExitMBPnPMode(); } VOID SIOByteSet(byte LDN, byte Register, byte Value){ SIOEnterMBPnPMode(); SIO
N e t w o r k Ap p l i a n c e FWS-7400 Appendix B I/O Information Appendix B I/O Information B-1
N e t w o r k Ap p l i a n c e B.
N e t w o r k Ap p l i a n c e FWS-7400 Appendix B I/O Information B-3
N e t w o r k Ap p l i a n c e Appendix B I/O Information B-4 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 B.
N e t w o r k Ap p l i a n c e Appendix B I/O Information B-6 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 B.
N e t w o r k Ap p l i a n c e Appendix B I/O Information B-8 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Appendix B I/O Information B-9
N e t w o r k Ap p l i a n c e Appendix B I/O Information B-10 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 Appendix B I/O Information B-11
N e t w o r k Ap p l i a n c e B.
N e t w o r k Ap p l i a n c e FWS-7400 Appendix C Standard LAN Bypass Platform Setting Appendix C Standard LAN Bypass Platform Setting C-1
N e t w o r k Ap p l i a n c e FWS-7400 C.1 Status LED Introduction FWS-7400 provides a LED indicator which can change the LED status by AAEON SDK. User is able to program the LED status to express different status.
N e t w o r k Ap p l i a n c e FWS-7400 Sample Code ************************************************************************************ #define Word LED2Add //This parameter is represented from Note1 #define Word LED1Add //This parameter is represented from Note2 #define Word LED0Add //This parameter is represented from Note3 #define Byte LED2Bit //This parameter is represented from Note4 #define Byte LED1Bit //This parameter is represented from Note5 #define Byte LED0Bit //This parameter is represented
N e t w o r k Ap p l i a n c e FWS-7400 C.2 LAN Bypass Introduction FWS-7400 provides LAN Bypass kit and allow uninterrupted network traffic even if a single in-line appliance is shut down or hangs. Customer can upgrade to 2 or 4 LAN Bypass kit with options.
N e t w o r k Ap p l i a n c e PWR_ON FWS-7400 Use for configuring LAN Bypass function behavior to LAN kit, when system power on. 1: Bypass 0: Pass Through PWR_OFF Use for configuring LAN Bypass function behavior to LAN kit, when system power off. 1: Bypass 0: Pass Through WDT_EN Use for configuring WDT function behavior to LAN kit, when WDT triggered. 0: Normal WDT reset (Default) 1: Force Bypass ACT_EN Use for activating programming of LAN kit.
N e t w o r k Ap p l i a n c e ACT_EN R/W 0xA00(Note7) FWS-7400 5(Note14) (Note15) ************************************************************************************ Sample Code ************************************************************************************ #define Word LAN_ID2 //This parameter is represented from Note1 #define Word LAN_ID1 //This parameter is represented from Note2 #define Word LAN_ID0 //This parameter is represented from Note3 #define Byte PWR_ON //This parameter is represe
N e t w o r k Ap p l i a n c e FWS-7400 delay100ms(); TmpValue |= (Value << BitNum); outport(IoAddr, TmpValue); } ************************************************************************************ ************************************************************************************ VOID SET_Value (Word IoAddr, Byte BitNum,Byte Value){ BYTE TmpValue; TmpValue = inportb (IoAddr); TmpValue &= ~(1 << BitNum); TmpValue |= (Value << BitNum); outport(IoAddr, TmpValue); } ****************************************
N e t w o r k Ap p l i a n c e FWS-7400 Bypass_Active (ACT_EN, ACT_EN_R); } ************************************************************************************ Appendix C Standard LAN Bypass Platform Setting C-8
N e t w o r k Ap p l i a n c e FWS-7400 C.3 LCD Module Introduction FWS-7400 provides a LCM (LCD Module) to display information via standard parallel port. User is able to program the LCM to express different status.
N e t w o r k Ap p l i a n c e } void Entry_mode_set() { outportb(0x378, 0x06); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); wait(); } void Display_Off() { outportb(0x378, 0x08); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); wait(); } void Display_On_Cursor_Off() { outportb(0x378, 0x0C); wait(); outportb(0x37A, 0xC8); Appendix C Standard LAN Bypass Platform Setting C-10 FWS-7400
N e t w o r k Ap p l i a n c e FWS-7400 wait(); outportb(0x37A, 0xCA); wait(); } void Display_On_Cursor_On() { outportb(0x378, 0x0E); wait(); outportb(0x37A, 0xC8); wait(); outportb(0x37A, 0xCA); wait(); } Appendix C Standard LAN Bypass Platform Setting C-11
N e t w o r k Ap p l i a n c e FWS-7400 C.4 Software Reset button (General Propose Input) Introduction FWS-7400 provides a general propose input button which status can get by AAEON SDK. Soft Reset Button Configuration Table 2 : LAN Bypass relative register table Function Description BTN_STS Reading this register returns the pin level status which is normal high active low. 0: Pin Level States Low. 1: Pin Level States High.
N e t w o r k Ap p l i a n c e FWS-7400 TmpValue = inportb (IoAddr); return (TmpValue & (1 << BitNum)) } ************************************************************************************ VOID Main(){ Byte RstBtn; RstBtn = GET_Value (BTN_STS, BTN_STS_R); // Active Low } ************************************************************************************ Appendix C Standard LAN Bypass Platform Setting C-13
