Related Manuals for EVOC 104-1814CLDNA Series
Summary of Contents for EVOC 104-1814CLDNA Series
- Page 1 1041814CLDNA Series PCI/104-Express 单板电脑 PCI/104-Express Single Board Computer Version:B01...
- Page 2 声明 本手册包含的内容并不代表本公司的承诺,本公司保留对此手册更改的权 利,且不另行通知。对于任何因安装、使用不当而导致的直接、间接、有意或无 意的损坏及隐患概不负责。 订购产品前,请向经销商详细了解产品性能是否符合您的需求。 EVOC是研祥智能科技股份有限公司的注册商标。本手册所涉及到的其他商 标,其所有权为相应的产品厂家所拥有。 研祥智能科技股份有限公司©2009,版权所有,违者必究。未经许可,不得 以机械、电子或其它任何方式进行复制。 安全使用小常识 产品使用前,务必仔细阅读产品说明书; 对未准备安装的板卡,应将其保存在防静电保护袋中; 在从防静电保护袋中拿出板卡前, 应将手先置于接地金属物体上一会儿 (比 如 10 秒钟) ,以释放身体及手中的静电; 在拿板卡时,需佩戴静电保护手套,并且应该养成只触及其边缘部分的习 惯; 为避免人体被电击或产品被损坏,在每次对主板、板卡进行拔插或重新配 置时,须先关闭交流电源或将交流电源线从电源插座中拔掉; 在需对板卡或整机进行搬动前,务必先将交流电源线从电源插座中拔掉; 对整机产品,需增加/减少板卡时,务必先拔掉交流电源; 当您需连接或拔除任何设备前,须确定所有的电源线事先已被拔掉; 为避免频繁开关机对产品造成不必要的损伤,关机后,应至少等待 30 秒后 再开机。...
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Page 3: Table Of Contents
目录 第一章 产品介绍 ....................1 简介 ........................1 机械尺寸、重量与环境 ..................1 典型功耗......................1 微处理器......................2 芯片组......................2 系统内存......................2 显示功能......................2 网络功能......................2 音频功能......................2 电源特性......................2 扩展总线......................2 Watchdog 功能 ....................3 I/O 接口 ......................3 第二章 安装说明 ....................4 产品外形尺寸图....................4 接口位置示意图....................5 主板架构图 .....................6 跳线设置......................7 串口 ........................8 显示接口......................9 LCD 背光控制接口..................10 SATA 接口 ....................10 USB 接口 ......................10 网络接口.......................11 ... - Page 4 数字 IO 接口....................12 多功能接口....................12 LED 灯 ......................12 POWER BUTTON 接口................12 J2 接口......................13 扩展 ISA 接口 ....................13 风扇接口 ...................... 13 电源接口 ...................... 14 PC/104Plus 接口..................14 PCIe/104 插槽....................16 第三章 BIOS 功能简介 ..................19 简介......................19 BIOS 参数设置.....................
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Page 5: 第一章 产品介绍
第一章 产品介绍 第一章 产品介绍 简介 104-1814CLDNA系列是一款面向高端应用的低功耗嵌入式PCI/104-Express 结构的主板,板上集成了Intel® 最新低功耗双核CPU、板载1G内存、VGA/LVDS 显示 、 1个PC/104-Plus插槽、 1个PCI/104-Express扩展插槽 , 1个10/100/1000Mbps 网络接口、在板Audio、2个SATA2.0接口、4个串口、4个USB2.0接口、看门狗定 时器。 本产品主要应用于军工、铁路、通讯、实时视频监控等高端领域,本产品 在该领域中主要用作主控系统。 机械尺寸、重量与环境 外形尺寸:115.5mm(长)×96.8(宽)×42mm(高) Ø 净重:0.27Kg; Ø 工作环境: Ø 温度:-40℃~+85℃; 湿度:5%~90%(非凝结状态) ; 贮存环境: Ø 温度:-40°C~+85°C ; 湿度:5%~90%(非凝结状态) ; 典型功耗 CPU:板载 Intel® Duo SU9300 内存:板载 DDRII 1G 800MHz +5V@2.12A;+5%/-3%。... -
Page 6: 微处理器
第一章 产品介绍 微处理器 支持Intel® SU9300(FSB:800M 封装:BGA956)/SL9400(FSB:1066M 封装: BGA956)/Celeron ULV 722(FSB:800M 封装:BGA956) CPU。 芯片组 Intel® GS45+Intel® ICH9M-SFFE 系统内存 板载 1G DDR2 800MHz。 显示功能 采用 Intel® GS45芯片组集成显示模块,根据需要分配显示内存,支持VGA 显示,双通道的LVDS显示(24bit)和VGA+LVDS双显示功能,CRT支持最高分辨率到 QXGA(2048x1536)。 网络功能 提供1个10/100/1000Mbps网络接口,可支持网络唤醒功能。 音频功能 采用ALC888-GR音效芯片,支持MIC-IN,LINE-IN,SPEAKER-OUT。 电源特性 采用ATX/AT电源,支持S0、S1、S4、S5。 扩展总线 提供1个 PC/104-Plus插槽,1个 PCI/104-Express插槽,支持 PCI/104-Express标准。 - 2 - 104-1814CLDNA 系列... -
Page 7: Watchdog 功能
第一章 产品介绍 Watchdog 功能 支持 255 级,可编程按分或秒; Ø 支持看门狗超时或复位系统。 Ø I/O 接口 提供 4 个串口,其中 COM3、COM4 支持 RS-422/RS-485 模式; Ø 提供 2 个 SATA 接口; Ø 提供 4 个 USB2.0 接口; Ø 提供 1 个 8 位数字 I/O 接口。 Ø 104-1814CLDNA 系列... -
Page 8: 第二章 安装说明
第二章 安装说明 第二章 安装说明 产品外形尺寸图 单位:mm - 4 - 104-1814CLDNA 系列... -
Page 9: 接口位置示意图
第二章 安装说明 接口位置示意图 LED2 LED1 PCIE2 PCIE1 JATX1 LCDB1 JLCD1 PWR1 104-1814CLDNA 系列 - 5 -... -
Page 10: 主板架构图
第二章 安装说明 主板架构图 CK505 ICS9LPRS365BGLF DDR2 DDR2 CHANNEL A CRT Cantiga SFF ON Board 1GB CRT/LVDS LVDS PCIE X16 PCI Express SLOT 4 个 USB(2 header) 4 个 PCIE X1 USB 2.0 2 个 USB(PCIE SLOT) ICH9M SFF PCI BUS PCIPLUS GPIO 8bit Digital I/O SPI HD Audio REALTEK ALC888 2X5 HEADER SPI Flash PCIE PORT1 INTEL 82574 2X7 HEADER SATA SATA1,2 JMF601/TFBGA LPC TO COM F81216DG ... -
Page 11: 跳线设置
第二章 安装说明 提示:如何识别跳线、接口的第一脚 1、观察插头、插座旁边的文字标记,通常用“1”或加粗的线条或三角符号表示。 2、看看背面的焊盘,通常方型焊盘为第一脚。 跳线设置 JCC1:CMOS内容清除/保持设置(脚距:2.0mm) CMOS由板上钮扣电池供电。 清CMOS会导致永久性消除以前系统配置并将其设 为原始(工厂设置)系统设置。其步骤:(1)关闭计算机,断开电源;(2)瞬间短 接JCC1插针;(3)开计算机;(4)启动时按屏幕提示按键进入BIOS设置,重新加载 最优缺省值;(5)保存并退出设置。设置方式如下: 设置 功能 1-2 开路 正常工作状态(Default) 1-2 短路 清除 CMOS 内容, 所有 BIOS 设置恢复成出厂值。 JCC1 JLCD1:LCD工作电压选择(脚距:2.0mm) 不同的 LCD 屏电压可能不同,本板提供了 3.3V 和 5V 两种电压选择,当所 选择的 LCD 电压与所使用的 LCD 屏的工作电压一致时,LCD 屏才能正常显示。设 置方式如下:... - Page 12 第二章 安装说明 设置 功能 1-2 短路 ATX电源 2-3 短路 AT电源(Default) JATX1 JP1、JP2:串口(COM3、COM4)RS-422/RS-485模式选择(脚距:2.0mm) 可通过设置JP1~JP2来实现COM3、COM4模式选择,JP1控制COM3,JP2控制 COM4,具体设置如下: 模式选择 管脚设置 RS-485 RS-422 (Default) 1-2短路 3-4短路 JP1、JP2 1-2短路 3-4短路 串口 本板提供4个2×5Pin插针串口(脚距:2.0mm)。COM1、COM2支持RS-232 模式,COM3、COM4可通过设置JP1,JP2设置选择RS-422或RS-485工作模式。管脚 定义如下: 信号名称 管脚 COM1,COM2 COM3,COM4 RS-232 RS-422 RS-485(Default) DCD# TXD- Data- TXD+ Data+ RXD+ DTR# RXD-...
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Page 13: 显示接口
第二章 安装说明 显示接口 1、VGA接口 本板提供1个2×5Pin VGA插针接口(脚距:2.0mm),管脚定义如下: 管脚 信号名称 管脚 信号名称 VSYNC HSYNC DDCDATA DDCCLK Green Blue VGA1 GND 2、LVDS接口 双通道24bit LVDS接口(脚距:1.0 mm)。 管脚 信号名称 管脚 信号名称 LVDSO_D0+ LVDSO_D0- LVDSO_D1+ LVDSO_D1- LVDSO_D2+ LVDSO_D2- CLK+ CLK- LVDSO_D3+ LVDSO_D3- LVDS1 信号名称 管脚 信号名称 管脚... -
Page 14: Lcd 背光控制接口
第二章 安装说明 LCD 背光控制接口 管脚 信号名称 VCC_LCDBKLT LCD_BKLTCTL LCDB1 LCD_BKLTEN (脚距: 2.0mm) 注:VCC_LCDBKLT---背光电源,此脚电流限制在 1A 以下; LCD_BKLTCTL---背光控制; LCD_BKLTEN ---背光使能,高有效。 SATA 接口 本板提供2个SATA接口, 管脚定义如下: 管脚 信号名称 SATA1、SATA2 USB 接口 本主板提供2个2×5Pin USB插针接口(脚距:2.0 mm),可通过转接电缆 接出4个USB接口,其定义如下: 管脚 信号名称 管脚 信号名称 USB1_Data- USB2_Data- USB1_Data+ USB2_Data+ USB1、USB2 GND_CHASSIS - 10 - 104-1814CLDNA 系列... -
Page 15: 网络接口
第二章 安装说明 网络接口 本主板提供1个2×7Pin(脚距:2.0mm)的10/100/1000Mbps网络接口,需 要用转接线固定到机箱上与外部设备连接。以下给出了它的管脚定义。 管脚 信号名称 管脚 信号名称 MX0+ MX0- MX1+ MX1- MX2+ MX2- MX3+ MX3- LINK_LED+ LINK_LED- (SPEED100-) (SPEED1000-) LAN1 ACT_LED+ ACT_LED- LILED 网络速度 ACTLED 网络活动 (双色:黄/绿灯) 指示状态 (单色:绿色灯) 指示状态 绿色 1000Mbps 闪烁 有数据传输 黄色 100Mbps 灭 无数据传输 灭... -
Page 16: 数字 Io 接口
第二章 安装说明 数字 IO 接口 本主板提供八路可编程GPIO端口,输入输出可由编程随意控制,默认为1, 3,5,7脚是输入,2,4,6,8脚是输出。定义如下: 管脚 信号名称 管脚 信号名称 INPUT0 OUTPUT0 INPUT1 OUTPUT1 INPUT2 OUTPUT2 GPIO1 INPUT3 OUTPUT3 (脚距:2.0mm) 多功能接口 管脚 信号名称 管脚 信号名称 SPEAKER- VCC5 RESET (脚距:2.0mm) LED 灯 功能 LED1 电源指示灯 LED1、LED2 LED2 硬盘指示灯 POWER BUTTON 接口 设置... -
Page 17: J2 接口
第二章 安装说明 J2 接口 非普通的USB接口,只用来出厂前开卡使用。 管脚 信号名称 VCC5 USB_Data- USB_Data+ (脚距:2.0mm) 扩展 ISA 接口 预留接口。 管脚 信号名称 管脚 信号名称 SERIRQ CLK_14M_ISA (脚距:2.0mm) 风扇接口 管脚 信号名称 CPUFAN1 (脚距 2.54mm) 104-1814CLDNA 系列 - 13 -... -
Page 18: 电源接口
第二章 安装说明 电源接口 主板提供ATX与AT电源选择,并共用一个1×15 Pin插座(脚距2.5mm) ,以下 为它的管脚定义: PWR1 信号名称 管脚 ATX 电源 AT 电源 VCC5 VCC5 VCC5 VCC5 VCC5 VCC5 VCC5SB PS_ON- ATX_PWROK VCC5 VCC5 VCC12 VCC12 VCC12 VCC12 VCC12- PC/104-Plus 接口 支持 PCI-104 版本 2.0,接口管脚定义见下表。 - 14 - 104-1814CLDNA 系列... - Page 19 第二章 安装说明 管脚 信号名称 管脚 信号名称 管脚 信号名称 管脚 信号名称 C/BE0# AD11 AD10 AD14 AD13 AD12 +3.3V C/BE1# AD15 +3.3V SERR# PERR# +3.3V STOP# +3.3V PLOCK# +3.3V TRDY# DEVSEL# FRAME# IRDY# +3.3V AD16 +3.3V C/BE2# AD18 +3.3V AD17 AD21 AD20 AD19 +3.3V AD23...
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Page 20: Pcie/104 插槽
第二章 安装说明 PCI/104-Express 插槽 板上标识为PCIE1,PCIE2。 管脚 信号名称 管脚 信号名称 USB_OC# PE_RST# +3.3V +3.3V USB_1p USB_0p USB_1n USB_0n PEx1_1Tp PEx1_0Tp PEx1_1Tn PEx1_0Tn PEx1_2Tp PEx1_3Tp PEx1_2Tn PEx1_3Tn PEx1_1Rp PEx1_0Rp PEx1_1Rn PEx1_0Rn Volts PEx1_2Rp PEx1_3Rp PEx1_2Rn PEx1_3Rn PEx1_1Clkp PEx1_0Clkp PEx1_1Clkn PEx1_0Clkn 5V_Always 5V_Always PEx1_2Clkp PEx1_3Clkp PEx1_2Clkn... - Page 21 第二章 安装说明 管脚 信号名称 管脚 信号名称 Reserved/WAKE# PEG_ENA# PEx16_0T(8)p PEx16_0T(0)p PEx16_0T(8)n PEx16_0T(0)n PEx16_0T(9)p PEx16_0T(1)p PEx16_0T(9)n PEx16_0T(1)n PEx16_0T(10)p PEx16_0T(2)p PEx16_0T(10)n PEx16_0T(2)n PEx16_0T(11)p PEx16_0T(3)p PEx16_0T(11)n PEx16_0T(3)n Volts PEx16_0T(12)p PEx16_0T(4)p PEx16_0T(12)n PEx16_0T(4)n PEx16_0T(13)p PEx16_0T(5)p PEx16_0T(13)n PEx16_0T(5)n PEx16_0T(14)p PEx16_0T(6)p PEx16_0T(14)n PEx16_0T(6)n PEx16_0T(15)p PEx16_0T(7)p PEx16_0T(15)n PEx16_0T(7)n 104-1814CLDNA 系列...
- Page 22 第二章 安装说明 管脚 信号名称 管脚 信号名称 SDVO_DAT(PENA#) SDVO_CLK PEx16_0R(8)p PEx16_0R(0)p PEx16_0R(8)n PEx16_0R(0)n PEx16_0R(9)p PEx16_0R(1)p PEx16_0R(9)n PEx16_0R(1)n PEx16_0R(10)p PEx16_0R(2)p PEx16_0R(10)n PEx16_0R(2)n PEx16_0R(11)p PEx16_0R(3)p PEx16_0R(11)n PEx16_0R(3)n Volts PEx16_0R(12)p PEx16_0R(4)p PEx16_0R(12)n PEx16_0R(4)n PEx16_0R(13)p PEx16_0R(5)p PEx16_0R(13)n PEx16_0R(5)n PEx16_0R(14)p PEx16_0R(6)p PEx16_0R(14)n PEx16_0R(6)n PEx16_0R(15)p PEx16_0R(7)p PEx16_0R(15)n PEx16_0R(7)n - 18 - 104-1814CLDNA 系列...
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Page 23: 第三章 Bios 功能简介
第三章 BIOS 功能介绍 第三章 BIOS 功能简介 简介 BIOS(Basic Input and Output System:基本输入输出系统)固化在 CPU 板上的闪存存储器中,主要功能包括:初始化系统硬件,设置各系统部件的工作 状态,调整各系统部件的工作参数,诊断系统各部件的功能并报告故障,给上层 软件系统提供硬件操作控制接口,引导操作系统等。BIOS 提供用户一个菜单式 的人机接口,方便用户配置各系统参数设置,控制电源管理模式,调整系统设备 的资源分配等等。 正确设置 BIOS 各项参数,可使系统稳定可靠地工作,同时也能提升系统的 整体性能。 不适当的甚至错误的 BIOS 参数设置, 则会使系统工作性能大为降低, 使系统工作不稳定,甚至无法正常工作。 BIOS 参数设置 每当系统接通电源, 正常开机后,便可看见进入 BIOS 设置程序提示的信息。 此时(其它时间无效),按下提示信息所指定的按键(通常为<Del>键)即可进入 BIOS 设置程序。 CMOS 中 BIOS 设置内容被破坏时,系统也会要求进入 BIOS 设置或选择某种 默认设置值。... -
Page 24: Bios 基本功能设置
第三章 BIOS 功能简介 BIOS 基本功能设置 当SETUP程序启动之后,您可以看到CMOS Setup Utility主画面如下: BIOS SETUP UTILITY ←→ Select Screen System Overview ↑↓ Select Item Processor + - Change Field Type Tab Select Field Intel(R) Core(TM)2 Duo CPU U9300 @1.20GHz General Help F10 Save and Exit Speed :1200MHz ESC Exit... - Page 25 第三章 BIOS 功能简介 Advanced BIOS SETUP UTILITY Configure CPU Advanced Settings WARNING: Setting wrong values in below sections may cause system to malfunction ←→ Select Screen „CPU Configuration ↑↓ Select Item „IDE Configuration Enter Go to Sub Screen „SuperIO Configuration Tab Select Field „ISA I/O Decode Configuration General Help...
- Page 26 第三章 BIOS 功能简介 Intel® SpeedStep™ tech Intel SpeedStep tech功能的控制开关。 Intel® Virtualization Tech Intel Virtualization Tech功能的控制开关。 Core Multi-Processing Intel Core Multi-Processing 功能的控制开关,选择Disabled时会关 掉CPU每个Die中的一个Core。 注:以上选项显示根据CPU功能是否支持而定。 IDE Configuration Ø BIOS SETUP UTILITY IDE Configuration SATA#1 Configuration [Enhanced] Configure SATA#1 as [IDE] ←→ Select Screen SATA#2 Configuration [Enhanced] ↑↓...
- Page 27 第三章 BIOS 功能简介 SATA#1 Configuration SATA#1控制器的模式选择,Disabled, Compatible, Enhanced分别对应 关闭控制器,兼容模式和增强模式。 Configure SATA#1 as SATA控制器的类型选择, 对应IDE, RAID和AHCI三个选择项, 仅在ATA/IDE Configuration为增强模式时才支持RAID和AHCI。 RAID和AHCI功能同时需要硬件芯片和操作系统支持。 SATA#2 Configuration SATA#2控制器的模式选择开关,Disabled, Enhanced对应关闭控制器和 增强模式。 Primary~Fourth IDE Master/Slave ﹡Type Not Installed:系统没有检测到IDE设备 AUTO:系统开机自动检测IDE参数 CD/DVD:用于ATAPI CDROM ARMD:用于各种模拟IDE设备 ﹡LBA/Large Mode 用于设置是否支持LBA模式。 ﹡Block(Multi-sector Transfer) 用于设置是否支持多扇区同时传输的功能。 ﹡PIO Mode 用于PIO模式设置。...
- Page 28 第三章 BIOS 功能简介 ﹡S.M.A.R.T 此选项用于设置是否启用硬盘S.M.A.R.T功能,只对支持该功能的硬盘有 效。 ﹡32Bit Data Transfer 此选项用于使能32位的硬盘访问模式,可以使硬盘读写速度达到最佳。 SuperIO Configuration Ø BIOS SETUP UTILITY Allows BIOS to Enable or Configure Win627DHG Super IO Chipset Disable Floppy Controller. Serial Port1 Address [3F8] Serial Port1 IRQ ←→ Select Screen Serial Port2 Address [2F8] ↑↓...
- Page 29 第三章 BIOS 功能简介 ISA I/O Decode Configuration Ø BIOS SETUP UTILITY Configuration ISA I/O Address By WB83628 Decode I/O Space 0 [Enabled] Decode I/O Base 0 [0100h] Decode I/O Size 0 [64 Bytes] Decode I/O Space 1 [Enabled] ←→ Select Screen Decode I/O Base 1 [0140h] ↑↓...
- Page 30 第三章 BIOS 功能简介 Decode I/O Size(0-5) IO解码空间大小 ISA Memory Decode Configuration Ø BIOS SETUP UTILITY Configuration ISA Memory Address By WB83628 Memory Space 0 [Disabled] Decode MEM Base 0 [0000] Decode Size 0 [16 KB] [Disabled] Memory Space 1 Decode MEM Base 1 [0000] ←→...
- Page 31 第三章 BIOS 功能简介 USB Configuration Ø BIOS SETUP UTILITY Enables USB host USB Configuration controllers. Module Version -2.24.3-13.4 ←→ Select Screen USB Devices Enabled : ↑↓ Select Item None + - Change Field General Help F10 Save and Exit USB Mass Storage Device Configuration ESC Exit V02.61 (c)Copyright 1985-2006,American Megatrends, Inc.
- Page 32 第三章 BIOS 功能简介 Resume on RTC Alarm 此项用来打开或关闭系统闹钟,当到达指定时间时,会将系统从节电模 式甚至关机状态唤醒,该功能必须有ATX电源的支持。 Clock Generator Configuration Ø BIOS SETUP UTILITY Configure Clock Generator ←→ Select Screen Spread Spectrum [Enabled] ↑↓ Select Item Auto PCI Clock [Enabled] + - Change Field General Help F10 Save and Exit ESC Exit V02.61 (c)Copyright 1985-2006,American Megatrends, Inc.
- Page 33 第三章 BIOS 功能简介 Chipset BIOS SETUP UTILITY Advanced Chipset Settings WARNING: Setting wrong values in below sections may cause system to malfunction. NorthBridge Configuration ←→ Select Screen DRAM Frequency [Auto] ↑↓ Select Item Configure DRAM Timing by SPD [Enabled] Enter Go to Sub Screen General Help Boots Graphic Adapter Priority [PEG/PCI] F10 Save and Exit...
- Page 34 第三章 BIOS 功能简介 此选项用于选择开机默认的显示输出设备。 Flat Panel Type Ø 此选项用于选择Flat Panel的分辨率。 Panel Specification Ø 此选项用于选择LVDS的色深。 Dual Channel Ø 此选项用于选择双通道的LVDS。 Onboard Audio Controller Ø 选择是否打开声卡控制器。 PCIPnP BIOS SETUP UTILITY Advanced PCI/PnP Settings WARNING:Setting wrong values in below sections may cause system to malfunction. IRQ3 [Available] IRQ4...
- Page 35 第三章 BIOS 功能简介 Boot BIOS SETUP UTILITY Boot Settings ←→ Select Screen Quick Boot [Enabled] ↑↓ Select Item Quiet Boot [Disabled] Enter Go to Sub Screen General Help Waite For ‘F1’ If Error [Enabled] F10 Save and Exit Boot from Embedded WinCE [NO] ESC Exit Boot Device Priority...
- Page 36 第三章 BIOS 功能简介 Security BIOS SETUP UTILITY Install or Change the Security Settings password Supervisor Password :Not Installed ←→ Select Screen User Password :Not Installed ↑↓ Select Item Enter Change General Help Change Supervisor Password F10 Save and Exit ESC Exit Change User Password V02.61 (c)Copyright 1985-2006,American Megatrends, Inc.
- Page 37 第三章 BIOS 功能简介 Save Changes and Exit Ø 当您完成了所有的修改操作,想将原来的设置参数覆盖掉时,可执行此 项功能,新的设置参数将保存在CMOS的存储器中。要执行此操作,先选定此选 项并按下< Enter >键,再按< Enter >键即可可退出。 Discard Changes and Exit Ø 当您所做的任何更改设置的动作不想存入CMOS的存储器中,可先选定此 选项并按下< Enter >键,再按<Enter >键即可退出。 Discard Changes Ø 当您所做的任何更改设置的动作有误而需要忽略时,可先选定此选项并 按下< Enter >键,然后可以再次进入相应选项进行重新设置。 Load Optimal Defaults Ø 此菜单用于在你的系统配置中装入缺省值。这些缺省设置是最优的,可 以发挥所有硬件的高性能。 Load Failsafe Defaults Ø...
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Page 38: X86 平台下 Bios 所要管理的系统资源
第三章 BIOS 功能简介 x86 平台下 BIOS 所要管理的系统资源 这里的系统资源我们定义三种:I/O端口地址,IRQ中断号和DMA号。 级别 功能 DMA0 DRAM 刷新 DMA1 未分配 DMA2 软盘 DMA3 未分配(有时用于硬盘) DMA4 用于 DMAC 的级连 DMA5 未分配 DMA6 未分配 DMA7 未分配 APIC 高级可编程中断控制器。在现代P4以上级别的主板中,大都支持APIC,可 以提供多于16个中断源,如IRQ16—IRQ23,部分主板如支持PCI-X的主板可以有 多达28个中断源。但要启用该功能必须相应的操作系统支持,目前只有windows 2000以上的操作系统支持。 IO端口地址 系统I/O地址空间总共有64K,每一外围设备都会占用一段I/O地址空间。下 表给出了本CPU卡部分设备的I/O 地址分配,由于PCI设备(如PCI网卡)的地址 是由软件配置的,表中没有列出。 - 34 - 104-1814CLDNA 系列... - Page 39 第三章 BIOS 功能简介 地址 设备描述 DMA 控制器#1 000h - 00Fh PCI 总线 000h - CF7h 底板资源 010h - 01Fh 可编程中断控制器#1 020h - 021h 底板资源 022h - 03Fh 系统计时器 040h - 043h 底板资源 044h - 05Fh 标准 101/102 键或 Microsoft 自然 PS/2 键盘 060h System speaker 061h...
- Page 40 第三章 BIOS 功能简介 地址 设备描述 DMA 控制器#6 0C0h - 0DFh 底板资源 0E0h - 0EFh 数据数值处理器 0F0h - 0FFh 274h – 277h ISAPNP Read Data Port 279h ISAPNP Read Data Port 2E8h – 2EFh 通讯端口(COM4) 2F8h – 2FFh 通讯端口(COM2) 3B0h – 3BBh Mobile Intel(R) 4 Series Express Chipset Family 3C0h –...
- Page 41 第三章 BIOS 功能简介 统分配。下表给出了X86平台部分设备的中断分配情况,但没有给出PCI设备所占 用的中断资源。 级别 功能 IRQ0 系统计时器 IRQ1 标准 101/102 键或 Microsoft 键盘 IRQ2 可编程的中断控制器 IRQ3 串口#2 IRQ4 串口#1 IRQ5 保留 IRQ6 保留 IRQ7 保留 IRQ8 系统 CMOS/实时时钟 IRQ9 Microsoft ACPI-Compliant System IRQ10 串口#3 IRQ11 串口#4 IRQ12 保留 IRQ13 Numeric data processor IRQ14...
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Page 42: 第四章 驱动程序安装说明
第四章 驱动程序安装说明 第四章 驱动程序安装说明 本产品的驱动程序可依据配套光盘内容安装,在此不做介绍。 - 38 - 104-1814CLDNA 系列... -
Page 43: Watchdog 编程指引
附录 附录 Watchdog 编程指引 本主板提供一个可按分或按秒计时的,最长达255级的可编程看门狗定时器 (以下简称WDT)。 通过编程,WDT超时事件可用来将系统复位或者产生一个可屏蔽 中断。 本主板可使用的中断号为:3,4,5,7,9,10,11。 使用前请把BIOS Setup 界面PCIPnP组中对应的IRQ号选项值改成Reserved。 以下用C语言形式提供了WDT的编程范例,对WDT的编程需遵循以下步骤: 进入WDT编程模式 Ø 设置WDT工作方式/启动WDT/关闭WDT Ø (1) 进入WDT编程模式 #define INDEX_PORT 0x2E #define DATA_PORT 0x2F outportb(INDEX_PORT,0x67); outportb(INDEX_PORT,0x67); outportb(INDEX_PORT,0x07); outportb(DATA_PORT,0x08); outportb(INDEX_PORT,0x30); outportb(DATA_PORT,0x01); (2) 配置WDT工作方式,复位或中断方式,选择一种: unsigned char oldval; outportb(INDEX_PORT,0x70); oldval = inportb(DATA_PORT); a. - Page 44 附录 b. 配置WDT成中断工作方式 oldval |= 0x10; oldval | =IRQ_NO; /*此处请用需要使用的中断号替换掉常量 IRQ_NO,文档前端已经列出可使用中断号的范围*/ outportb(DATA_PORT, oldval); (3) 配置WDT按分或秒计时: a. 按分计时: outportb(INDEX_PORT,0xf0); outportb(DATA_PORT,0x04); b. 按秒计时: outportb(INDEX_PORT,0xf0); outportb(DATA_PORT,0x02); (4) 启动/禁止WDT a. 启动WDT: outportb(INDEX_PORT,0xf1); outportb(DATA_PORT,TIME_OUT_VALUE); /*请以超时时间单位数量 (0x01~0xFF)替换掉常量TIME_OUT_VALUE*/ outportb(INDEX_PORT,0xf1); outportb(DATA_PORT,TIME_OUT_VALUE); /*请以超时时间单位数量 (0x01~0xFF)替换掉常量TIME_OUT_VALUE*/ b. 停止WDT: outportb(INDEX_PORT,0xf1); outportb(DATA_PORT,0x00); - 40 - 104-1814CLDNA 系列...
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Page 45: 数字 Io 编程指引
附录 数字 IO 编程指引 本主板提供8路可编程数字I/O引脚,其中4路为输入,4路为输出。以下用C 语言形式提供了数字I/0的编程范例,对数字I/O的编程需遵循以下步骤: 初始化数字I/O Ø 输入输出编程 Ø 数字I/O: #define BAR 0x400 unsigned char tmp_val; outportb(BAR,0xbf); outportb(BAR+0x04,0x40); outportb(BAR+0x03,0x03); outportb(BAR+0x05,0x0F); tmp_val =(inportb(BAR+0x02)|0x08)&0xeb; tmp_val |= 0x40; outportb(BAR+0x02, tmp_val); delay(30); tmp_val =inportb(BAR); while((tmp_val &0x02)!=0x02) tmp_val =inportb(BAR); if((tmp_val &0x04)!=0) printf("ERROR\n"); return 0; 输入输出编程:... - Page 46 附录 int lev_val – 1为输出高电平,0为输出低电平。 函数输出:无 void Out_Lev(int pin ,int lev_val) unsigned int reg_val ; outportb(BAR,0xbf); outportb(BAR+0x04,0x40); outportb(BAR+0x03,0x01); reg_val = inportb(BAR+0x05); reg_val = lev_val ? reg_val|(0x01<<pin+3) :reg_val&(~ (0x01<<pin+3)) ; outportb(BAR+0x05, reg_val); reg_val =(inportb(BAR+0x02)|0x08)&0xeb; reg_val |= 0x40; outportb(BAR+0x02, reg_val); delay(30); reg_val =inportb(BAR); while((reg_val &0x02)!=0x02) reg_val =inportb(BAR);...
- Page 47 =(inportb(BAR+0x02)|0x08)&0xeb; reg_val |= 0x40; outportb(BAR+0x02, reg_val); delay(30); reg_val =inportb(BAR); while((reg_val &0x02)!=0x02) reg_val =inportb(BAR); if((reg_val &0x04)!=0) printf("ERROR\n"); return 0; lev_val = inportb(BAR+0x05)&( 0x01<<pin-1); lev_val = lev_val ? 1:0; /*此处得到变量lev_val的值,为1 表示输入引脚为高电平,为0表示输入引脚为低电平*/ return lev_val ; 欲获更多信息请访问研祥网站:http://www.evoc.com。 104-1814CLDNA 系列 - 43 -...
- Page 48 Announcement What contained in this User Manual does not represent the commitments of EVOC Company. EVOC Company reserves the right to revise this User Manual, without prior notice, and will not be held liable for any direct, indirect, intended or unintended losses and/or hidden dangers due to installation or improper operation. Before purchasing, please have a detailed understanding of the product performance to see whether it meets your requirements. EVOC is a registered trademark of EVOC Intelligent Technology Co., Ltd. All ...
- Page 49 Contents ................ 1 Chapter 1 Product Introduction ..................... 1 Overview ..........1 Mechanical Dimension, Weight and Environment ................1 Typical Power Consumption ..................... 2 Microprocessor ......................2 Chipset .................... 2 System Memory ....................2 Video Function ..................2 Network Function ..................... 2 Audio Function ....................2 Power Feature ....................2 Expansion Bus ..................3 Watchdog Function ....................
- Page 50 ..................10 SATA Connector ....................10 USB Port ....................11 LAN Port ..................12 Audio Connector ..................12 Digital IO Connector ................12 MultiFunctional Connector ......................13 ..................13 POWER BUTTON ......................13 ................13 Expansion ISA Connector .....................14 Fan Connector ..................14 Power Connector .................15 PC/104Plus Connector ..................16 PCI/104Express Slot ...................19 Chapter 3 BIOS Setup ....................19 Overview ..................19 BIOS Parameter Setup ..............20 Basic Function Settings for BIOS ........34 System Resources Managed by BIOS under X86 Platform ................38 Chapter 4 Install the Drivers ....................39 ...
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Page 51: Chapter 1 Product Introduction
Chapter 1 Product Introduction Chapter 1 Product Introduction Overview 1041814CLDNA is an embedded PCI/104Express motherboard facing the highend application with low power consumption. The board integrates the latest Intel® dualcore CPU, onboard 1G memory, VGA/LVDS, one PC/104Plus slot, one PCI/104Express expansion slot, one 10/100/1000Mbps network port, onboard Audio, two SATA2.0 connectors, four serial ports, four USB2.0 ports and watchdog timer. This product is mainly used in highend fields such as military industry, railway, communication and realtime video monitor as main control system. ... -
Page 52: Microprocessor
Chapter 1 Product Introduction Microprocessor Intel® SU9300 (FSB: 800M; BGA956)/SL9400 (FSB: 1066M; BGA956)/Celeron ULV 722(FSB: 800M BGA956) CPU Chipset Intel® GS45+Intel® ICH9MSFFE System Memory Onboard memory, 1G DDR2 800MHz; Video Function Intel® GS45 chipset integrates the display module; the display memory can be assigned according to requirements; support VGA, dualchannel LVDS (24bit) and VGA+LVDS dualdisplay function; the resolution of CRT reaches up to QXGA (2048x1536). Network Function One 10/100/1000Mbps LAN port; support WakeOnLAN function; Audio Function ALC888GR sound effect chip; support MICIN, LINEIN, SPEAKEROUT; Power Feature ATX/AT Power, support S0, S1, S4 and S5. Expansion Bus ... -
Page 53: Watchdog Function
Chapter 1 Product Introduction Watchdog Function Ø 255 levels, programmable by minute or second; Ø Support watchdog overtime interrupt or reset system. I/O Connectors Ø Four serial ports, COM3 and COM4 support RS422/RS485 mode; Ø Two SATA connectors; Ø Four USB2.0 ports; Ø One 8bit digital I/O connector. 1041814CLDNA Series 3 ... -
Page 54: Chapter 2 Installation
Chapter 2 Installation Chapter 2 Installation Product Outline Unit: mm 4 1041814CLDNA Series ... -
Page 55: Locations Of Connectors
Chapter 2 Installation Locations of Connectors LED1 LED2 PCIE2 PCIE1 JATX1 LCDB1 JLCD1 PWR1 1041814CLDNA Series 5 ... -
Page 56: Motherboard Structure
Chapter 2 Installation Motherboard Structure CK505 ICS9LPRS365BGLF DDR2 DDR2 CHANNEL A ON Board 1GB CRT Cantiga SFF CRT/LVDS LVDS PCIE X16 PCI Express SLOT 4 个 USB(2 header) 4 个 PCIE X1 USB 2.0 2 个 USB(PCIE SLOT) ICH9M SFF PCIPLUS PCI BUS GPIO 8bit Digital I/O SPI REALTEK ALC888 2X5 HEADER SPI Flash HD Audio INTEL 82574 2X7 HEADER PCIE PORT1 SATA SATA1,2 JMF601/TFBGA ... -
Page 57: Jumper Settings
Chapter 2 Installation Tip: How to identify the first pin of the jumpers and connectors 1. Observe the letter beside the socket, it would be marked with “1” or thickened lines or triangular symbols; 2. Observe the solder pad on the back, the square pad is the first pin; Jumper Settings 1. JCC1: Clear/Keep CMOS Setting (Pin Distance: 2.0mm) CMOS is powered by the button battery on board. Clear CMOS will restore original settings (factory default). The steps are listed as follows : (1) Turn off the computer and unplug the power cable; (2) Short circuit JCC1; (3) Turn on the computer; (4) Follow the hint on screen to enter BIOS setup when starting the computer, load optimized defaults; (5) Save and exit. Please set it as follows: ... -
Page 58: Serial Port
Chapter 2 Installation Setup Function 12 Short ATX Power 23 Short AT Power(Default) JATX1 4. JP1, JP2: Select RS422/RS485 Mode for COM3/COM4 (Pin Distance: 2.0mm) The mode of COM3/COM4 can be selected by JP1/JP2; JP1 controls COM3 while JP2 controls COM4. Please set as follows: Mode Selection Pin Setup RS485(Default) RS422 JP1 12 Short 34 Short JP1/JP2 JP2 12 Short 34 Short Serial Port This board provides four 2×5Pin serial port connectors (Pin Distance: 2.0mm); COM1 and COM2 support RS232 mode; COM3 and COM4 supports RS422/RS485 mode ... -
Page 59: Video Connector
Chapter 2 Installation Video Connector 1. VGA Connector This board provides one 2×5Pin VGA connector (Pin Distance: 2.0mm). The pin definitions are listed as follows: Pin Signal Name Pin Signal Name 1 VSYNC 2 HSYNC 3 DDCDATA 4 Red 5 DDCCLK 6 Green 7 +5V 8 Blue VGA1 9 GND 10 ... -
Page 60: Lcd Backlight Control Connector
Chapter 2 Installation LCD Backlight Control Connector Pin Signal Name 1 VCC_LCDBKLT 2 LCD_BKLTCTL LCDB1 3 LCD_BKLTEN (Pin Distance: 2.0mm) 4 GND Note: VCC_LCDBKLTbacklight power, the current of this pin shall be less than 1A; LCD_BKLTCTLbacklight control; LCD_BKLTEN backlight enabling, active high. SATA Connector This board provides two SATA connectors. The pin definitions are listed as follows: Pin Signal Name 1 GND 2 TX+ 3 TX 4 GND 5 RX 6 RX+ SATA1/SATA2 7 ... -
Page 61: Lan Port
Chapter 2 Installation LAN Port This motherboard provides one 2×7Pin 10/100/1000Mbps network port connector (Pin Distance: 2.0mm). Transfer cable is required to fix the connector to the chassis, so that it can be connected with the peripherals. The pin definitions are listed as follows: Pin Signal Name Pin Signal Name 1 MX0+ 2 MX0 3 MX1+ 4 MX1 5 MX2+ 6 MX2 7 MX3+ 8 MX3 9 GND 10 GND LINK_LED+ LINK_LED LAN1 11 12 (SPEED100) (SPEED1000) 13 ACT_LED+ 14 ... -
Page 62: Audio Connector
Chapter 2 Installation Audio Connector This board provides one 2×5Pin AUDIO connector (Pin Distance: 2.0mm). The pin definitions are listed as follows: Pin Signal Name Pin Signal Name 1 LOUT_R 2 LOUT_L 3 GND_AUDIO 4 GND_AUDIO 5 LIN_R 6 LIN_L 7 GND_AUDIO 8 GND_AUDIO AUDIO1 9 MIC_L 10 MIC_R Digital IO Connector This ... -
Page 63: Led
Chapter 2 Installation LED LED Function LED1 Power Indicator LED1/LED2 LED2 Hard Disk Indicator POWER BUTTON Pin Signal Name GND 1 FP2 2 FP_PWRBTN (Pin Distance: 2.0mm) J2 Uncommon USB port connector, it only can be used to active the card before leaving the factory. Pin Signal Name 1 VCC5 2 USB_Data J2 3 USB_Data+ (Pin Distance: 2.0mm) 4 GND Expansion ISA Connector Reserved connector; Pin Signal Name Pin Signal Name ... -
Page 64: Fan Connector
Chapter 2 Installation Fan Connector Pin Signal Name 1 GND 2 +5V CPUFAN1 3 NC (Pin Distance: 2.54mm) Power Connector This motherboard provides ATX power and AT power selection and they share one 1×15 Pin socket (Pin Distance: 2.5mm). The pin definitions are listed as follows: PWR1 Signal Name Pin ATX Power AT Power 1 VCC5 VCC5 2 ... -
Page 65: Pc/104Plus Connector
Chapter 2 Installation PC/104Plus Connector Support PCI104, Version 2.0. The pin definitions are listed in the following table. J1 Pin Signal Pin Signal Pin Signal Name Pin Signal Name A1 KEY B1 NC C1 +5V D1 AD0 A2 NC B2 AD2 C2 AD1 D2 +5V A3 AD5 B3 GND C3 AD4 D3 AD3 A4 C/BE0# B4 AD7 ... -
Page 66: Pci/104Express Slot
Chapter 2 Installation PCI/104Express Slot Marked as PCIE1 and PCIE2; Pin Signal Name Pin Signal Name 1 USB_OC# 2 PE_RST# 3 +3.3V 4 +3.3V 5 USB_1p 6 USB_0p 7 USB_1n 8 USB_0n 9 GND 10 GND 11 PEx1_1Tp 12 PEx1_0Tp 13 PEx1_1Tn 14 PEx1_0Tn 15 ... - Page 67 Chapter 2 Installation Pin Signal Name Pin Signal Name 53 Reserved/WAKE# 54 PEG_ENA# 55 GND 56 GND 57 PEx16_0T(8)p 58 PEx16_0T(0)p 59 PEx16_0T(8)n 60 PEx16_0T(0)n 61 GND 62 GND 63 PEx16_0T(9)p 64 PEx16_0T(1)p 65 PEx16_0T(9)n 66 PEx16_0T(1)n 67 GND 68 GND 69 PEx16_0T(10)p 70 PEx16_0T(2)p ...
- Page 68 Chapter 2 Installation Pin Signal Name Pin Signal Name 105 SDVO_DAT(PENA#) 106 SDVO_CLK 107 GND 108 GND 109 PEx16_0R(8)p 110 PEx16_0R(0)p 111 PEx16_0R(8)n 112 PEx16_0R(0)n 113 GND 114 GND 115 PEx16_0R(9)p 116 PEx16_0R(1)p 117 PEx16_0R(9)n 118 PEx16_0R(1)n 119 GND 120 GND 121 PEx16_0R(10)p ...
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Page 69: Chapter 3 Bios Setup
Chapter 3 BIOS Setup Chapter 3 BIOS Setup Overview BIOS (Basic Input and Output System) is solidified in the flash memory on the CPU board. Its main functions include: initialize system hardware, set the operating status of the system components, adjust the operating parameters of the system components, diagnose the functions of the system components and report failures, provide hardware operating and controlling interface for the upper level software system, guide operating system and so on. BIOS provides users with a humancomputer interface in menu style to facilitate the configuration of system parameters for users, control power management mode and adjust the resource distribution of system device, etc. Setting the parameters of the BIOS correctly could enable the system operating stably and reliably; it could also improve the overall performance of the system at the same time. Inadequate even incorrect BIOS parameter setting will decrease the system operating ... -
Page 70: Basic Function Settings For Bios
Chapter 3 BIOS Setup Basic Function Settings for BIOS After starting SETUP program, the main interface of CMOS Setup Utility will appear: BIOS SETUP UTILITY ←→ Select Screen System Overview ↑↓ Select Item Processor + Change Field Type : Tab Select Field Intel(R) Core(TM)2 Duo CPU U9300 @1.20GHz F1 General Help F10 Save and Exit Speed :1200MHz ESC Exit Cores ... - Page 71 Chapter 3 BIOS Setup u Advanced BIOS SETUP UTILITY Configure CPU Advanced Settings WARNING: Setting wrong values in below sections may cause system to malfunction ←→ Select Screen „CPU Configuration ↑↓ Select Item „IDE Configuration Enter Go to Sub Screen „SuperIO Configuration Tab Select Field „ISA I/O Decode Configuration F1 General Help „ISA Memory Decode Configuration F10 Save and Exit „USB Configuration ESC Exit „Power Management Configuration „Clock Generator Configuration V02.61 (c)Copyright 19852006, American Megatrends, Inc. Ø CPU Configuration ...
- Page 72 Chapter 3 BIOS Setup l Intel® SpeedStep™ tech The control switch of Intel SpeedStep tech; l Intel® Virtualization Tech The control switch of Intel Virtualization Tech; l Core MultiProcessing The control switch of Intel Core MultiProcessing, one Core in each Die of CPU will be disabled when selecting “Disabled”. Note: the options above are displayed according to whether they are supported by CPU. Ø IDE Configuration BIOS SETUP UTILITY IDE Configuration SATA#1 Configuration [Enhanced] Configure SATA#1 as [IDE] ←→ Select Screen SATA#2 Configuration [Enhanced] ↑↓ Select Item + ...
- Page 73 Chapter 3 BIOS Setup l SATA#1 Configuration Mode selection for SATA#1 controller; Disabled, Compatible and Enhanced are corresponding with Disable Controller, Compatible Mode and Enhanced Mode. l Configure SATA#1 as Type selection for SATA controller, correspond with three options: IDE, RAID and AHCI. Only when “ATA/IDE Configuration” is under Enhanced mode, it supports RAID and AHCI. Both RAID and AHCI functions require support from hardware chip and OS. l SATA#2 Configuration Mode selection switch for SATA#2 controller; Disabled and Enhanced are corresponding with Disable Controller and Enhanced Mode. ...
- Page 74 Chapter 3 BIOS Setup ﹡S.M.A.R.T This option is used to enable or disable S.M.A.R.T function for hard disk and it is only effective for the hard disk supporting this function. ﹡32Bit Data Transfer This option is used to enable 32bit hard disk accessing mode, which could optimize hard disk read and write speed. Ø SuperIO Configuration BIOS SETUP UTILITY Allows BIOS to Enable or Configure Win627DHG Super IO Chipset Disable Floppy Controller. Serial Port1 Address [3F8] Serial Port1 IRQ [4] ←→ Select Screen ↑↓ Select Item Serial Port2 Address [2F8] + Change Field Serial Port2 IRQ [3] Tab ...
- Page 75 Chapter 3 BIOS Setup Ø ISA I/O Decode Configuration BIOS SETUP UTILITY Configuration ISA I/O Address By WB83628 Decode I/O Space 0 [Enabled] Decode I/O Base 0 [0100h] Decode I/O Size 0 [64 Bytes] Decode I/O Space 1 [Enabled] ←→ Select Screen Decode I/O Base 1 [0140h] ↑↓ Select Item + Change Field Decode I/O Size 1 [32 Bytes] Tab Select Field F1 General Help Decode I/O Space 2 [Enabled] F10 Save and Exit Decode I/O Base 2 [0200h] ESC Exit Decode I/O Size 2 ...
- Page 76 Chapter 3 BIOS Setup l Decode I/O Size(05) The size of decode IO space; Ø ISA Memory Decode Configuration BIOS SETUP UTILITY Configuration ISA Memory Address By WB83628 Memory Space 0 [Disabled] Decode MEM Base 0 [0000] Decode Size 0 [16 KB] [Disabled] Memory Space 1 Decode MEM Base 1 [0000] ←→ Select Screen Decode Size 1 [16 KB] ↑↓ Select Item + Change Field F1 General Help Memory Space 2 [Disabled] F10 Save and Exit Decode MEM Base 2 [0000] ESC Exit Decode Size 2 ...
- Page 77 Chapter 3 BIOS Setup Ø USB Configuration BIOS SETUP UTILITY Enables USB host USB Configuration controllers. Module Version 2.24.313.4 ←→ Select Screen USB Devices Enabled : ↑↓ Select Item None + Change Field F1 General Help F10 Save and Exit USB Mass Storage Device Configuration ESC Exit V02.61 (c)Copyright 19852006,American Megatrends, Inc. Ø Power Management Configuration BIOS SETUP UTILITY Power Management Configuration ←→ Select Screen ↑↓ ...
- Page 78 Chapter 3 BIOS Setup l Resume on RTC Alarm This option is used to enable or disable the system clock. When the specified time is expired, it will wake the system from power saving mode, even from power off mode. This function shall be supported by ATX power. Ø Clock Generator Configuration BIOS SETUP UTILITY Configure Clock Generator ←→ Select Screen Spread Spectrum [Enabled] ↑↓ Select Item Auto PCI Clock [Enabled] + Change Field F1 General Help F10 Save and Exit ESC Exit V02.61 (c)Copyright 19852006,American Megatrends, Inc. l Spread Spectrum This option is used to control the spread spectrum function of the clock signal. l Auto PCI Clock This option can be used to set whether to support disabling the unused clock. ...
- Page 79 Chapter 3 BIOS Setup u Chipset BIOS SETUP UTILITY Advanced Chipset Settings WARNING: Setting wrong values in below sections may cause system to malfunction. NorthBridge Configuration ←→ Select Screen DRAM Frequency [Auto] ↑↓ Select Item Configure DRAM Timing by SPD [Enabled] Enter Go to Sub Screen F1 General Help Boots Graphic Adapter Priority [PEG/PCI] F10 Save and Exit Internal Graphics Mode Select [Enabled, 32MB] ESC Exit Boot Display Device [CRT + LVDS] Flat Panel Type [800*600] Panel Specification [24 BIT] Dual Channel ...
- Page 80 Chapter 3 BIOS Setup Ø Boot Display Device This option is used to choose the default display device when powering on. Ø Flat Panel Type This option is used to choose the resolution for Flat Panel. Ø Panel Specification This option is used to select the color depth of LVDS. Ø Dual Channel This option is used to select dual channel LVDS. Ø Onboard Audio Controller Select whether to enable audio card controller. u PCIPnP BIOS SETUP UTILITY Advanced PCI/PnP Settings WARNING:Setting wrong values in below sections may cause system to malfunction. IRQ3 [Available] IRQ4 [Available] ←→ Select Screen ↑↓ Select Item IRQ5 [Available] + Change Field IRQ7 [Available] F1 General Help IRQ9 ...
- Page 81 Chapter 3 BIOS Setup u Boot BIOS SETUP UTILITY Boot Settings ←→ Select Screen Quick Boot [Enabled] ↑↓ Select Item Quiet Boot [Disabled] Enter Go to Sub Screen Waite For ‘F1’ If Error [Enabled] F1 General Help F10 Save and Exit Boot from Embedded WinCE [NO] ESC Exit Boot Device Priority st st 1 Boot Device [1 FLOPPY DRIVE] V02.61 (c)Copyright 19852006,American Megatrends, Inc. Ø ...
- Page 82 Chapter 3 BIOS Setup u Security BIOS SETUP UTILITY Install or Change the Security Settings password Supervisor Password :Not Installed ←→ Select Screen User Password :Not Installed ↑↓ Select Item Enter Change F1 General Help Change Supervisor Password F10 Save and Exit ESC Exit Change User Password V02.61 (c)Copyright 19852006,American Megatrends, Inc. Ø Change User/ Supervisor Password After pressing Change User/ Supervisor Password and input new password in the dialog box, this column will indicate that user’s password has been installed. u ...
- Page 83 Chapter 3 BIOS Setup Ø Save Changes and Exit When you have finished all the changes and want to cover the original parameters, you may implement this operation and save the new parameters into CMOS storage. To implement this operation, you may choose this option and press < Enter >; press < Enter > again to exit. Ø Discard Changes and Exit If you do not want to save the change into CMOS storage, please choose this option and press < Enter >; press < Enter > again to exit. Ø Discard Changes If error occurs in your change and need to be neglected, please choose this option and press < Enter > in order to enter corresponding options again and ...
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Page 84: System Resources Managed By Bios Under X86 Platform
Chapter 3 BIOS Setup System Resources Managed by BIOS under X86 Platform We define three kinds of system resources here: I/O port address, IRQ interrupt number and DMA number. u DMA Level Function DMA0 DRAM Refresh DMA1 Unassigned DMA2 Floppy Disk DMA3 Unassigned (sometimes used for hard disk) DMA4 Used for DMAC Cascade DMA5 Unassigned DMA6 Unassigned DMA7 Unassigned u ... - Page 85 Chapter 3 BIOS Setup Address Device Description DMA Controller#1 000h 00Fh PCI Bus 000h CF7h Carrier Resource 010h 01Fh Programmable Interrupt Controller#1 020h 021h Carrier Resource 022h 03Fh System Timer 040h 043h Carrier Resource 044h 05Fh Standard 101/102 Key or Microsoft Natural PS/2 Keyboard 060h System speaker 061h Carrier Resource ...
- Page 86 Chapter 3 BIOS Setup Address Device Description DMA Controller#6 0C0h 0DFh Carrier Resource 0E0h 0EFh Numeric Data Processor 0F0h 0FFh 274h – 277h ISAPNP Read Data Port 279h ISAPNP Read Data Port 2E8h – 2EFh COM4 2F8h – 2FFh COM2 3B0h – 3BBh Mobile Intel(R) 4 Series Express Chipset Family 3C0h – 3DFh Mobile Intel(R) 4 Series Express Chipset Family 3E8h – 3EFh COM3 ...
- Page 87 Chapter 3 BIOS Setup by the BIOS or the OS .And several PCI devices share one interrupt through the distribution of BIOS or OS. The diagram below shows parts of the interrupt distribution under X86 platform, but it does not show the interrupt source occupied by the PCI devices. Level Function IRQ0 System Timer Standard 101/102 Key or Microsoft natural PS/2 Keyboard IRQ1 IRQ2 Programmable Interrupt Controller IRQ3 COM#2 ...
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Page 88: Chapter 4 Install The Drivers
Chapter 4 Install the Drivers Chapter 4 Install the Drivers Please refer to the equipped CD for the driver program of this product and it is omitted here. 38 1041814CLDNA Series ... -
Page 89: Appendix
Appendix Appendix Watchdog Programming Guide This board provides a programmable watchdog timer (WDT) up to 255 levels and time by minute or second. Watchdog timer overtime event can be programmed to reset system or generate maskable interrupts. The available IRQ numbers for this board are: 3, 4, 5, 7, 9, 10 and 11. Before using, please modify the corresponding IRQ number in PCIPnP of BIOS Setup interface into “Reserved”. The following describes WDT program in C language. The steps to program WDT are listed as follows: Ø Enter WDT programming mode Ø Set WDT operating mode/enable WDT/disable WDT (1) Enter WDT programming mode. #define ... - Page 90 Appendix b. Interrupt Operating Mode oldval |= 0x10; oldval | =IRQ_NO; /* Please replace the constant IRQ_NO with the needed IRQ number, the available range of IRQ number is listed at the beginning of this document.*/ outportb(DATA_PORT, oldval); (3) WDT timer selection: time by minute or second a. Time by minute: outportb(INDEX_PORT,0xf0); outportb(DATA_PORT,0x04); b. Time by second: outportb(INDEX_PORT,0xf0); outportb(DATA_PORT,0x02); (4) Enable/Disable WDT ...
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Page 91: Digital Io Programming Guide
Appendix Digital IO Programming Guide This board provides 8channel programmable digital I/O pins, 4 for input while the other 4 for output. The following shows the example of digital I/O programming in C language; please follow the steps listed below to program the digital I/O: Ø Initialize digital I/O Ø Input/Output program (1) Initialize Digital I/O: #define BAR 0x400 unsigned char tmp_val; outportb(BAR,0xbf); outportb(BAR+0x04,0x40); outportb(BAR+0x03,0x03); outportb(BAR+0x05,0x0F); tmp_val =(inportb(BAR+0x02)|0x08)&0xeb; tmp_val |= 0x40; outportb(BAR+0x02, tmp_val); delay(30); tmp_val =inportb(BAR); while((tmp_val &0x02)!=0x02) { tmp_val =inportb(BAR); if((tmp_val &0x04)!=0) { printf("ERROR\n"); return 0; } ... - Page 92 Appendix (2) Input/Output Program a. Output Program Function Input: int pin value 1~4 are corresponding with the output pin 1~4 respectively int lev_val 1: the output pin is high, 0: the output pin is low Function Output: None void Out_Lev(int pin ,int lev_val) { unsigned int reg_val ; outportb(BAR,0xbf); outportb(BAR+0x04,0x40); outportb(BAR+0x03,0x01); reg_val = inportb(BAR+0x05); reg_val = lev_val ? reg_val|(0x01<<pin+3) :reg_val&(~(0x01<<pin+3)) ; outportb(BAR+0x05, reg_val); reg_val =(inportb(BAR+0x02)|0x08)&0xeb; reg_val |= 0x40; outportb(BAR+0x02, reg_val); delay(30); reg_val =inportb(BAR); while((reg_val &0x02)!=0x02) { reg_val =inportb(BAR); ...
- Page 93 Function Input: int pin value 1~4 are corresponding with the output pin 1~4 respectively Function Output: int lev_val 1: the input pin is high, 0; the input pin is low int In_Lev(int pin) { unsigned int reg_val ; int lev_val ; outportb(BAR,0xbf); outportb(BAR+0x04,0x41); outportb(BAR+0x03,0x00); reg_val =(inportb(BAR+0x02)|0x08)&0xeb; reg_val |= 0x40; outportb(BAR+0x02, reg_val); delay(30); reg_val =inportb(BAR); while((reg_val &0x02)!=0x02) { reg_val =inportb(BAR); if((reg_val &0x04)!=0) { printf("ERROR\n"); return 0; } } lev_val = inportb(BAR+0x05)&( 0x01<<pin1); lev_val = lev_val ? 1:0; /* Get the value of the variable lev_val here, 1 means that the input pin is high while 0 means the input pin is low */ return lev_val ; } Please visit http://www.evoc.com for more information. 1041814CLDNA Series 43 ...
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