TBC1711-700M-26中文资料

P171-Type PIN/Preamp Advance Data Sheet November 2000The P171-Type PIN/Preamp features a rear-illuminated planar diode structure with low capacitance.Featuress Low-profile, 4-lead mini-DIL package:— Suitable for SONET applicationss Optional differential output in a 6-lead mini-DIL packages Transimpedance amplifier with automatic gain control (AGC)s Metal package:— Offers superior shielding for high noise immunitys High performance:— High speed (<0.5 ns typical rise and fall time)— High responsivity (0.85 A/W typical)— Low dark currents Planar structure for high reliabilitys Wavelength: 1.1 µm—1.6 µms50 µm core multimode fibers Wide operating temperature range:— –40 °C to +85 °Cs Wide bandwidths Qualification program: Telcordia Technologies* TA-NWT-983s Typical sensitivity:— –38 dBm at 155 Mbits/s— –33 dBm at 622 Mbits/sApplicationss Long-reach SONET OC-3/OC-12 and SDH STM-1/STM-4 telecommunications applicationss Secure digital data systemss Line terminal equipmentBenefitss Compact sizes Easily board mounted* Telcordia Technologies is a registered trademark of Telcordia Technologies, Inc.元器件交易网Advance Data SheetP171-Type PIN/PreampNovember 20002Agere Systems Inc.元器件交易网元器件交易网Advance Data SheetNovember 2000P171-Type PIN/Preamp元器件交易网Advance Data SheetP171-Type PIN/Preamp November 2000元器件交易网Advance Data SheetNovember 2000P171-Type PIN/Preamp元器件交易网Advance Data SheetP171-Type PIN/Preamp November 2000元器件交易网Advance Data SheetNovember 2000P171-Type PIN/PreampAdvance Data SheetP171-Type PIN/PreampNovember 2000For additional information, contact your Agere Systems Account Manager or the following:INTERNET: E-MAIL: docmaster@N. AMERICA:Agere Systems Inc., 555 Union Boulevard, Room 30L-15P-BA, Allentown, P A 18109-32861-800-372-2447 , FAX 610-712-4106 (In CANADA: 1-800-553-2448 , FAX 610-712-4106)ASIA PACIFIC:Agere Systems Singapore Pte. Ltd., 77 Science Park Drive, #03-18 Cintech III, Singapore 118256Tel. (65) 778 8833 , FAX (65) 777 7495CHINA:Agere Systems (Shanghai) Co., Ltd., 33/F Jin Mao Tower, 88 Century Boulevard Pudong, Shanghai 200121 PRCTel. (86) 21 50471212 , FAX (86) 21 50472266JAP AN:Agere Systems Japan Ltd., 7-18, Higashi-Gotanda 2-chome, Shinagawa-ku, Tokyo 141, JapanTel. (81) 3 5421 1600 , FAX (81) 3 5421 1700EUROPE:Data Requests: DATALINE: Tel. (44) 7000 582 368 , FAX (44) 1189 328 148Technical Inquiries: OPTOELECTRONICS MARKETING: (44) 1344 865 900 (Ascot UK)Agere Systems Inc. reserves the right to make changes to the product(s) or information contained herein without notice. No liability is assumed as a result of their use or application.Copyright © 2001 Agere Systems Inc.All Rights ReservedNovember 2000DS00-126OPTO-1 (Replaces DS00-126OPTO)Ordering Information*LR = meets SONET long-reach specifications.†>LR = exceeds SONET long-reach specifications.Device Code DescriptionComcode P171B014BAA 155 MHz Preamp, LR * , 4 Pins, 50 µ m Fiber, SC 108156704P171B014BAF 155 MHz Preamp, LR, 4 Pins, 50 µ m Fiber, FC/PC 108156712P171A016BAA 155 MHz Preamp, LR, 6 Pins, 50 µ m Fiber, SC 108316373P171A016BAF 155 MHz Preamp, LR, 6 Pins, 50 µ m Fiber, FC/PC 108316381P171B046BAA 622 MHz Preamp, >LR † , 6 Pins, 50 µ m Fiber, SC 108695461P171B046BAF622 MHz Preamp, >LR, 6 Pins, 50 µm Fiber, FC/PC108695479元器件交易网。

UNISONIC TECHNOLOGIES CO.,LTDM2107LINEAR INTEGRATED CIRCUITSINGLE OPERATIONAL AMPLIFIERDESCRIPTIONThe UTC M2107 is the single operational amplifier of ultra miniature surface mount package. It has features of low operating supply voltage and low saturation output voltage. It is suitable for small electronic equipments and hybrid circuits.FEATURES*Operating Voltage (V+/V- =±1.0V to±3.5V)*Low Output Saturation: (4Vp-p at single 5V supply)*V-Shield Plate Between +Input and -Input*Suitable Pin Arrangement for Application*Bipolar Technology*Pb-free plating product number: M2107L PIN CONFIGURATIONPIN NO. PIN NAME1 +INPUT2 V-3 -INPUT4 OUTPUT5 V+ORDERING INFORMATIONOrder NumberNormal Lead FreePackage Packing M2107-AF5-R M2107L-AF5-R SOT-25 TapeReelBLOCK DIAGRAMV+V-OUTPUT (5)(4)(2)(1)(3)ABSOLUTE MAXIMUM RATINGS (Ta=25 , unless otherwise specified.)RATINGSUNIT PARAMETER SYMBOLSupply Voltage V+(V+/V-) 7(or±3.5) VDifferential Input Voltage V I(DIFF)±7 VInput Voltage V IN±3.5 VPower Dissipation P D 200 mWOperating Temperature Range T OPR0 ~ +70 °CStorage Temperature Range T STG-40 ~ +150 °CNote:1.Absolute maximum ratings are those values beyond which the device could be permanently damaged.Absolute maximum ratings are stress ratings only and functional device operation is not implied.2.The device is guaranteed to meet performance specification within 0 ~70 operating temperature rangeand assured by design from –40 ~85 .ELECTRICAL CHARACTERISTICS (Ta=25, V+/V-=±2.5V , unless otherwise specified.)TYPMINMAXUNITCONDITIONPARAMETER SYMBOLTEST6mV Input Offset Voltage V IN(OFF)R S=10kΩ 1200nA Input Offset Current I IN(OFF)I+ -I- 5Input Bias Current I IN(BIAS)100 500 nALarge Signal Voltage Gain G V V OUT=±2.0V,R L=10kΩ60 80 dBdB Supply Voltage Rejection Ratio SVR R S≤10kΩ 6070Input Common Mode Voltage Range V IN(CM)±1.5 VdB Rejection Ratio RR R S≤10kΩ 6080Output Voltage Swing V OM R L=2.5kΩ±2.0 ±2.2 VSlew Rate SR V IN=±1Vp-p, ACL=+1 3 V/µsOperating Current I OPR 1 2 3 mATEST CIRCUITOUTTYPICAL CHARACTERICSVoltage Gain,Phase vs.FrequencyFrequency , f (Hz)V o l t a g e G a i n , G v (d B )Maximum Output Voltage vs.FrequencyM a x i m u m O u t p u t V o l t a g e , V O U T (V )10k01.0100k 2.01M3.04.0-10-100-80-60-40-200-120-140-160-180p h a s e (d e g )Frequency, f (Hz)Voltage Gain vs.Frequency-200204060Frequency, f (Hz)80V o l t a g e G a i n A v (d B )Input Noise Voltage vs .Input ResistanceM a x i m u m O u t p u t V o l t a g e S w i n g ,V O M (V )1k 10k 100k500Load Resistance, R L (Maximum Output Voltage Swing vs .Load Resistance5k 50k Input Resistance, R s (I n p u t N o i s e V o l t a g e , V I N (N O I S E ) (V )TYPICAL CHARACTERICS (Cont.)Operating Current vs .TemperatureAmbient Temperature , Ta( )O p e r a t i n g C u r r e n t , I O P R (m A)Maximum Output Voltage Swing vs.Temperature Ambient Temperature , Ta( )M a x i m u m O u t p u t V o l t a g e S w i n g , V O M (V )Input Offset Voltage vs.Temperature0Ambient Temperature , Ta( )I n p u t O f f s e t V o l t a g e , V I N (O F F ) (m V )Input Bias Current vs.TemperatureAmbient Temperature, Ta( )I n p u t B i a s C u r r e n t , I I N (B I A S ) (n A )Operating Current vs .Operating Voltage001234Operating Voltage, V +/V- (V )O p e r a t i n g C u r r e n t , I O P E R (m A )Ta=25Operating Voltage, V +/V- (V )Maximum Output Voltage Swing vs .Operating VoltageM a x i m u m O u t p u t V o l t a g e S w i n g ,V O M (V )TYPICAL CHARACTERICS (Cont.)Input Offset Voltage vs.Operating Voltage00.20.40.60.8Operating Voltage, V+/V- (V )Ta=250.5 I n p u t O f f s e t V o l t a g e , V I N (O F F ) (m V )Output Voltage, V OUT (V)Total Harmonic Distortion vs .Output VoltageT o t a l H a r m o n i c D i s t o r t i o n , T H D (%)。

EPI-1711VNALGA775 800MHz外频P4级全长卡带VGA/LAN/Audio版本：A1声明除列明随产品配置的配件外，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。

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未经许可,不得以机械的、电子的或其它任何方式进行复制。

安全使用小常识1.产品使用前，务必仔细阅读产品说明书；2.对未准备安装的板卡，应将其保存在防静电保护袋中；3.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；4.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；5.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；6.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；7.对整机产品，需增加／减少板卡时，务必先拔掉交流电源；8.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；9.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。

目录第一章产品介绍 (1)简介 (1)订购信息 (1)环境与机械尺寸 (2)微处理器 (2)芯片组 (2)系统存储器 (2)网络功能 (2)USB功能 (2)PICMG总线 (3)显示功能 (3)音频功能 (3)外部I/O接口功能 (3)IrDA 接口 (3)IDE功能 (3)SATA功能 (3)看门狗定时器 (4)电源管理规范 (4)第二章安装说明 (5)产品外形 (5)接口位置示意图 (6)跳线功能设置 (7)系统内存的安装 (8)SATA接口 (8)IDE接口 (9)并口 (10)串口 (10)网络接口 (11)键盘与鼠标接口 (11)USB接口 (12)显示接口 (12)音频接口 (13)IrDA/红外接口 (14)风扇接口 (14)电源接口 (14)状态指示灯接口 (16)EPI接口 (17)第三章BIOS功能简介 (19)附录 (20)Watchdog编程指引 (20)I/O口地址映射表 (23)IRQ中断分配表 (24)第一章产品介绍第一章产品介绍简介EPI-1711VNA是采用Intel 865GV+ICH5芯片组设计的，支持LGA 775 架构的533/800MHz外频P4级别处理器的全长卡。

epma-1720参数
EPMA-1720是一种仪器型号，通常用于分析和测量样品中元素的含量。

EPMA代表电子探针显微分析仪（Electron Probe Microanalyzer），而1720则表示特定型号或者规格。

EPMA-1720通常用于材料科学、地质学、化学和其他领域的研究和应用中。

EPMA-1720的参数通常包括加速电压、电子束直径、探测器类型、分辨率、分析范围和样品台移动范围等。

加速电压是指用于加速电子束的电压，通常以千伏（kV）为单位。

电子束直径是指电子束在样品表面的直径，通常以纳米（nm）为单位。

探测器类型包括能量色散X射线谱仪（EDS）和波长色散X射线谱仪（WDS），它们用于检测样品发射的X射线以确定元素含量。

分辨率表示仪器能够分辨的最小特征尺寸，通常以纳米为单位。

分析范围是指仪器能够分析的元素范围，通常涵盖周期表中的大部分元素。

样品台移动范围表示样品台在X、Y和Z方向上的移动范围，以便对样品进行全面分析。

EPMA-1720还可能具有其他参数，例如工作模式（定量分析、定性分析等）、数据处理软件、自动化功能等。

这些参数可以根据具体的仪器配置和用户需求而有所不同。

总的来说，EPMA-1720作为一种先进的电子探针显微分析仪，具有精准的元素分析能力和高分辨率，可用于广泛的科研和应用领域，为用户提供丰富的样品信息和数据。

ITA-1711N快速入门手册 1安装系统之前，用户需确认包装中含有本设备以及下面所列各项：• 1 x ITA-1711N 系列工业电脑• 1 x ITA-1711N 配件盒• 1 x 包含启动实用程序和手册（PDF格式）的CD光盘• 2 x 安装支架• 4 x 底部橡胶垫• 4 x M4螺丝（用于安装支架）• 1 x 质保卡如果其中任何一项缺失或损坏，请立即与经销商或销售代表联系。

注1： 有关ITA-1711N产品的详细信息，请参考CD光盘中的信息（PDF格式）。

注2：阅读PDF文件需要使用Acrobat Reader。

用户可从以下路径下载Acrobat Reader：/Products/acrobat/readstep2.html（Acrobat为Adobe公司的商标）ITA-1711N 系列无风扇嵌入式Celeron级双核紧凑型工业电脑快速入门手册标准功能• 芯片和芯片组：英特尔Celeron处理器J1900 • BIOS：AMI SPI 64 Mb Flash • 内存：板载8GB DDR3L 1333内存• 显示：Embedded Gen7+GFX Core，频率542 MHz 共享系统内存最高达256 MB SDRAM• 双显模式：单显分辨率可达2048 x 1536，双显分辨率可达1920 x 1080• 存储：支持1个CompactFlash插槽,1个M-Sata插槽以及1个2.5寸HDD/SSD• 扩展槽：支持2个Mini PCIe插槽系统规格• 以太网：4个10/100/1000M以太网• USB：7个USB2.0,1个USB3.0• 显示：VGA+LVDS• 串口：6个串口，支持RS-232/422/485切换• 数字I/O：48个可编程DIO• 声音：1个带2 x 4W放大器的扬声器输出，1个线路输入机箱与环境• 产品尺寸（W x H x D）：220 x 80 x 190 mm（8.67”x 73.15”x 7.48”) • 电源输入：直流9 ~ 36V 输入；5VSB• 工作温度：-25 ~ 60°C (-13 ~ 140°F)• 重量：3.6 kg如需了解有关本产品及研华其它产品的详细信息，请访问我们的网站： /epc如需技术服务与支持，请访问我们的技术支持网站： 本手册适用于ITA-1711N系列。

03/99Dual Ultra High-Speed FET DriverFEATURES•25ns Rise and Fall into 1000pF •15ns Propagation Delay•1.5A Source or Sink Output Drive •Operation with 5V to 35V Supply •High-Speed Schottky NPN Process •8-PIN MINIDIP PackageDESCRIPTIONThe UC1711family of FET drivers are made with an all-NPN Schottky process in order to optimize switching speed,temperature stability,and radiation resistance.The cost for these benefits is a quiescent supply current which varies with both output state and supply voltage.For lower power requirements,refer to the the UC1709family which is both pin compatible with,and functionally equivalent to the UC1711.These devices implement inverting logic with TTL com-patible inputs,and output stages which will either source,or sink in excess of 1.5A of load current with minimal cross-conduction charge.Due to their monolithic con-struction,the channels are well matched and can be par-alleled for doubled output current capability.427.5V REG6V CC7A Out3k3B OutA IN2.5k3k2.5kB IN5GndBLOCK DIAGRAMCONNECTION DIAGRAMUDG-99078DIL-8 (Top View)J or N PackageTEMPERATURE RANGEPACKAGE UC1711J –55°C to +125°C Ceramic DIP UC3711J 0°C to +70°C Ceramic DIP UC3711N0°C to +70°CPlastic DIPORDERING INFORMATIONABSOLUTE MAXIMUM RATINGSInput Supply Voltage, V CC . . . . . . . . . . . . . . . . . . . . . . . . . .40V Output Current (Source or Sink)Steady State . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .±500mA Peak Transient. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .± 1.5A Maximum Forced Voltage . . . . . . . . . . . . . . . . . . . .-0.3V to 7V Maximum Forced Current . . . . . . . . . . . . . . . . . . . . . . .± 10mA Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1W Operating Junction Temperature . . . . . . . . . .–55°C to +150°C Storage Temperature . . . . . . . . . . . . . . . . . . .–65°C to +150°CNote 1:Unless otherwise indicated,voltages are reference to ground and currents are positive into,negative out of,the spec-ified terminals.All reliability information for this device has been gathered at an ambient air temperature of 125°C,and a supply voltage of 25V .Note 2:Consult Unitrode databook for information regarding thermal specifications and limitations of packages.ELECTRICAL CHARACTERISTICS:Unless otherwise stated, V CC= 15V. T A=T J.PARAMETER TEST CONDITIONS MIN TYP MAX UNITS Input SupplySupply Current (Note 3)Both inputs = 0V; V CC= 15V1115mABoth inputs = 5V; V CC= 15V2027mABoth inputs = 0V; V CC= 35V1520mABoth inputs = 5V; V CC= 35V4156mA Logic InputsLogic 0 Input Voltage0.8V Logic 1 Input Voltage 2.2V Input Current V IN= 0V-5.0-2.7mAV IN= 5V0.5 2.0mA Output StagesOutput High Level I SOURCE= 20mA, below V CC 1.5 2.0VI SOURCE= 200mA, below V CC 2.0 3.0VOutput Low Level I SINK= 20mA.250.4VI SINK= 200mA0.4 1.0V Switching Characteristics (Note 4)Rise Time Delay, TPLH C LOAD= 01040nsC LOAD= 1000pF, (Note 5)1550nsC LOAD= 2200pF2055nsFall Time Delay, TPHL C LOAD= 0320nsC LOAD= 1000pf, (Note 5)520nsC LOAD= 2200pF520nsRise Time, TLH C LOAD= 0, (Note 5)1225nsC LOAD= 1000pF, (Note 5)2540nsC LOAD= 2200pF4055nsFall Time, THL C LOAD= 0, (Note 5)715nsC LOAD= 1000pF, (Note 5)2540nsC LOAD= 2200pF4055nsTotal Supply Current Freq = 200kHz, 50% Duty-cycleBoth Channels SwitchingC LOAD= 01723mAC LOAD= 2200pF2935mA Note3:Supply currents at other input supply votages can be calculated by extrapolating the15V and35V supply currents.The im-pedance of the chip at the V CC pin is linear for supply voltages from8V to35V,the approximate value of this impedance is4.3k for both inputs low, 0.94k for both inputs high, and 1.54k for one input high and one low.Note4:Switching test conditions are,V CC=15V,Input voltage waveform levels are0V and5V,with transition times of<3ns.The timing terms are defined as:TPHL Propagation delay50%V IN to90%V OUT;TPLH Propogation delay50%V IN to10%V OUT;THL 90% V OUT to 10% V OUT;TLH 10% V OUT to 90% V OUT.Note5:This specification not tested in production.Unless otherwise stated specifications hold for T A=0to70°C for the UC3711, and T A= -55 to 125°C for the UC1711, V CC= 15V.T A= T J.UNITRODE CORPORA TION7 CONTINENTAL BLVD.• MERRIMACK, NH 03054TEL.(603) 424-2410FAX (603) 424-34602IMPORTANT NOTICETexas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinue any product or service without notice, and advise customers to obtain the latest version of relevant information to verify, before placing orders, that information being relied on is current and complete. All products are sold subject to the terms and conditions of sale supplied at the time of order acknowledgement, including those pertaining to warranty, patent infringement, and limitation of liability.TI warrants performance of its semiconductor products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. Testing and other quality control techniques are utilized to the extent TI deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily performed, except those mandated by government requirements.CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OF DEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICAL APPLICATIONS”). TI SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, AUTHORIZED, OR WARRANTED TO BE SUITABLE FOR USE IN LIFE-SUPPORT DEVICES OR SYSTEMS OR OTHER CRITICAL APPLICATIONS. INCLUSION OF TI PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TO BE FULLY AT THE CUSTOMER’S RISK.In order to minimize risks associated with the customer’s applications, adequate design and operating safeguards must be provided by the customer to minimize inherent or procedural hazards.TI assumes no liability for applications assistance or customer product design. TI does not warrant or represent that any license, either express or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right of TI covering or relating to any combination, machine, or process in which such semiconductor products or services might be or are used. TI’s publication of information regarding any third party’s products or services does not constitute TI’s approval, warranty or endorsement thereof.Copyright © 1999, Texas Instruments Incorporated。

请参考本文档末的信息。

1.0 产品描述供货尺寸• 2 – 14英寸 IPS 管道尺寸• 63 – 355 毫米 ISO 管道尺寸管道材料• 符合 ASTM D3035 和 ASTM F714 或 ISO 4427-2 (SDR 7 – 26) 的 HDPE 管道• PE-RT 管道符合 ASTM D3035、单元分类 PE445574C、ASTM F2619 和 ASTM F714 (SDR 7 – 26) 标准• 有关交联聚乙烯（PE-Xa）管道的信息，请参见技术文件 36.01• 有关其他管道材料，请与 Victaulic（唯特利）联系最大工作压力• 达到或超过 HDPE 或 PE-RT 管道的额定压力工作温度• 视管道制造商额定值和密封垫圈选用而定• 有关密封垫圈性能选项，请参阅第 3.0 节• 有关管道材料性能极限，请咨询管道制造商功能• 连接平端HDPE管道• 采用 Installation-Ready™专利技术，无零散部件管道制备• 适用于平端 HDPE 或 PE-RT 管道注• 本文档中对 HDPE 的所有引用都包括 PE-RT2.0 CERTIFICATION/LISTINGS注• 有关详细信息，请参见技术文件 10.01：Victaulic（唯特利）消防认证参考指南。

• 有关详细信息，参见技术文件 02.06：Victaulic（唯特利）饮用水产品认证 – ANSI/NSF 61 和 ANSI/NSF 372。

• W aterMark™认证只适用于带 “E” 级三元乙丙橡胶（EPDM）密封垫圈的熔融粘结环氧树脂涂层卡箍。

有关进一步详细信息，请与 Victaulic（唯特利）联系。

用于HDPE管道的 Victaulic®（唯特利™）平端卡箍905 型19.07-CHI如需产品安装、维护或支持信息，3.0 规格 – 材料壳体：符合 ASTM A536之65-45-12 等级要求的球墨铸铁。

美国材料试验协会规范 ASTM F1713-03外科植入用钛合金Ti-13Nb-13Zr加工材标准【UNS R58130】1、范围1.1本标准包括用于生产外科植入材料的钛合金Ti-13Nb-13Zr的化学成分、机械性能和冶金方面的要求。

1.2标准所采用的单位是英寸-磅，括号中的SI（米制）单位仅作为参考。

2、引用标准2.1 ASTM标准：E8金属材料拉伸试验的方法E120钛及钛合金化学成分分析的检测方法E748材料和元件生物相容性测试方法的试验E1472外科植入用钛合金Ti-6AL-4V加工材标准〖UNS R56400〗2.2航空材料规范AMS 2249钛及钛合金化学成分检验分析的范围2.3美国国家质量标准（ASQ）ASQ C1质量工程通用要求的标准2.4 ISO国际标准ISO 6892金属材料室温拉伸试验3、术语3.1本标准的专业术语3.1.1时效态：产品固溶处理后，进行时效处理，截取样品作标准测试。

3.1.1.1时效：6±0.25h, 923±25℉(495±14℃)3.1.1.2从炉中取出空冷至室温。

3.1.2固溶态：产品在最终热加工或冷加工后进行快速淬火。

例如：在1112℉（600℃)以上温度加热后水淬。

3.1.3未退火态（加工态）：车间产品进行正常的热加工或冷加工，没有辅助的热处理要求。

4、产品分类4.1棒:圆棒或板材，直径或厚度尺寸处于3/16英寸～4英寸，（4.75～101.60mm）。

（其他尺寸或形状需特殊要求）4.2 丝：圆棒或板材，直径或厚度尺寸小于3/16英寸（4.75mm）。

5、订货信息5.1在本标准条件下材料的要求和合同包括以下内容：5.1.1数量（重量或件数），5.1.2通用的ASTM样式，5.1.3形状（棒或丝），5.1.4状态，5.1.5机械性能（特定状态下），5.1.6成品表面处理，5.1.7适用的尺寸包括长度、直径、厚度（对于矩形丝），5.1.8特殊检测5.1.9特殊要求6、材料及生产（工艺）6.1不同厂家生产的本标准内的钛产品通常采用钢铁或非钢铁企业的锻造和轧制设备。

AWK-1151C系列工業級IEEE802.11a/b/g/n/ac無線用戶端特色與優點•IEEE802.11a/b/g/n/ac Wave2無線用戶端•可選擇的雙頻Wi-Fi，資料傳輸速率高達867Mbps•最新的WPA3加密增強無線網路安全性•具有可配置國碼或區碼的通用(UN)型號，部署更彈性•透過網路位址轉譯(NAT)輕鬆設定網路•毫秒等級的用戶端Turbo Roaming漫遊1•內建2.4GHz和5GHz具有通濾波器，無線連線更可靠•-40至75°C寬操作溫度範圍（-T型號）•整合式天線隔離認證簡介AWK-1151C系列工業無線用戶端透過IEEE802.11ac技術滿足日益增長的加速資料傳輸需求，資料傳輸速率高達867Mbps。

在操作溫度、電源輸入電壓、突波、ESD和振動方面，AWK-1151C符合工業標準及規定。

具有DIN軌道或選配壁掛式安裝的輕巧外型可輕鬆安裝到工業機器或控制機櫃，提供可靠的無線連線。

AWK-1151C可以在2.4或5GHz頻段上操作，並相容現有的802.11a/b/g/n部署。

進階802.11ac工業無線解決方案•802.11a/b/g/n/ac相容的用戶端，提供彈性的部署方式•DFS頻道支援提供更廣泛的5GHz頻道選擇，避免現有無線基礎設施的干擾先進無線技術•基於用戶端的Turbo Roaming快速漫遊，達到無縫漫遊的目的。

2在AP間的漫遊復原時間<150毫秒（用戶端模式）工業級耐用性•整合式天線隔離設計可防止外部電氣干擾•-40至75°C的寬廣操作溫度型號(-T)可在惡劣環境中提供順暢的無線通訊規格WLAN InterfaceWLAN Standards 2.4GHz:802.11b/g/n with256QAM support5GHz:802.11a/n/ac Wave2with256QAM supportFrequency Band for US(20MHz operating channels)AWK-1151C US Models Only:2.412to2.462GHz(11channels)5.180to5.240GHz(4channels)5.260to5.320GHz(4channels)31.此處所指的Turbo Roaming快速漫遊復原時間是在最佳狀態下，配置無干擾20MHz RF頻道、WPA2-PSK安全性和預設的Turbo Roaming快速漫遊參數，所得到的測試結果平均值。

FSC-1711VNＳｏｃｋｅｔ　４７８全长ＣＰＵ卡　带ＶＧＡ／ＬＡＮ接口　＠版权２００２　研祥智能科技股份有限公司　版权所有　 ２００２年０５月１３日 版本设计和功能恕不提前通知　任何情况下，包括已警告了的各种损坏的可能性非直接的本文包含受版权保护的信息未经厂商书面同意电子的或其它任何方式进行复制版本数字的编码方式是用一个字母和一个数字组成Ａ１等而愈左边位数的字母更动表示更动幅度也愈大ＥＶＯＣ是深圳市研祥智能科技股份有限公司的注册商标Ｗｉｎｄｏｗｓ是Microsoft公司的注册商标Ｐｅｎｔｉｕｍ是Intel公司的注册商标目录1. 概述 (1)1.1物品清单 (1)1.2 介绍 (2)1.3 CPU卡特点 (2)1.4产品规格 (3)1.5 CPU卡外形尺寸 (5)2.硬件安装 (6)2.1 FSC-1711VN CPU卡构造图 (6)2.2 安装步骤 (7)2.3 CPU卡跳线设置调整 (7)2.3.1 CMOS内容清除/保持设置 (7)2.4中央处理器安装 (8)2.5 CPU 散热风扇安装 (8)2.6系统内存安装 (9)2.7 接口/插头/接针 (9)2.7.1 IDE接口 (10)2.7.2 软驱接口 (11)2.7.3 并行接口 (12)2.7.4 串行接口 (13)2.7.5 显示输出接口 (14)2.7.6 高速以太网接口 (14)2.7.7 USB设备接针 (15)2.7.8 键盘/鼠标接口 (16)2.7.9 风扇插座 (17)2.7.10 电源供应插座 (17)2.7.11红外线模组接针 (19)2.7.12 PC前面板连接插针 (19)4. BIOS设置 (22)4.1 BIOS介绍 (22)4.2 BIOS设置 (22)4.2.1 Standard CMOS Setup /标准CMOS设置 (24)4.2.2 Advanced CMOS Setup / 先进的CMOS设置 (26)4.2.3 Advanced Chipset Setup/高级芯片组设置 (29)4.2.4 Power Management Setup /电源管理设置 (32)4.2.5 PCI / Plug and Play Setup /PCI即插即用设置 (34)4.2.6 Peripheral Setup/外围设备的设置 (36)4.2.7 Hardware Monitor Setup/系统监控设置 (38)4.2.8 Auto- Detect Hard Disk/自动检测硬盘 (39)4.2.9 Change Supervisor&User Password/口令设置 (40)4.2.10 Auto Configuration with Optimal Settings/自动最佳默认设目录置 (41)4.2.11 Auto Configuration with Fail Safe Settings/安全默认设置.424.2.12 Save Settings and Exit/保存并退出 (43)4.2.13 Exit Without Saving/不保存退出 (43)5. 驱动软件安装 (44)5.1 安装简介 (44)5.2 Intel RG82845芯片组驱动程序的安装 (44)5.3 VGA驱动程序的安装 (44)5.4 CPU卡自带网络驱动程序的安装 (45)6. 附录 (46)6.1 I/O口地址映射表 (46)6.2 IRQ中断分配表 (47)FSC-1711VN主板说明书概述– 11. 概述１．１物品清单　请确认您所购买的工业级CPU 卡包装盒是否完整或是有任何配件短缺的情形þ 1块FSC-1711VN 工业级CPU 卡þ 1本 用户手册þ 1条 软驱电缆þ 2条IDE 电缆þ 1条配有机箱挡板的26 针转25针打印口电缆þ 1条配有机箱挡板的10针转9针COM 口电缆þ 1条miniDIN 一分二PS/2键盘/鼠标转接电缆þ 1套配有机箱挡板的USB 转接电缆þ 1条12V(4P 转2*2P 标准接口)电源转接电缆线þ １张ＥＶＯＣ　软件与用户手册光盘(含Intel RG82845和ATI Rage 128 Pro 驱动程序).¨ 专用12V P4 CPU 风扇¨ 备用跳线帽FSC-1711VN主板说明书2 – 概述１．２　介绍　EVOC FSC-1711VN 工业级CPU 卡是一款专为用户精心设计基于Intel ® RG82845芯片集的Socket 478 封装全长CPU 卡最大内存容量达2GB¾ß±¸32MB 独立显存集成在ICH2内Socket 478封装CPU 支持2.5V DDR200或DDR266 DDR DIMM支持64bit ECC type DRAM integrity 模式两个独立的UltraATA100/66/33 IDE 通道支持Mode0,1,2,3,4,5共6种PIO 传输模式CD-ROM 磁带机都可以直接连接和使用 COM1¾ß±¸ÏµÍ³Ó²¼þ¼à¿Ø¹¦ÄÜ系统监控功能: 通过对风扇转速的侦测确保系统散热通风全面支持ＡＴCPU 卡上的电源连结器使您可以使 用现有的电源供应器您也可选择通过无源底板对CPU 卡供电FSC-1711VN主板说明书概述– 3符合Windows98规格的加强型ACPI本CPU 卡使用的芯片组支持最先进的IDE数据传输模式-总线主控制器 U1traA TA100/66/33更重要的一点是注意而不是原来的40线电缆ＰＣＩ总线１０／１００Ｍｂ以太网接口用户无须再为系统添加网卡而烦恼　通过BIOS 可将电源开关信号定义为ATX电源开关功能或系统睡眠/工作状态转换功能Socket 478中央处理器系统芯片组ICH2Ö§³Ö400MHz 前端总线平台规格极大地提高了系统的吞吐量最高可以将信息传输速度提升到100MB/sec 的境界最多可支持 4 个USB 接口支持2.5V DDR DIMM 存儲器模块可使用符合INTEL 2.5V DDR200或DDR266 DDR DIMM 支持64bit ECC type DRAM integrity 模式AGP 图形功能: 集成ATI Rage128 PRO AGP 4X 图形加速控制器先进的2D 和3D 图形性能以及动画加速能力显示分辨率最高可达1600x1024FSC-1711VN主板说明书4 –概述¾-һת¶þת½ÓµçÀÂÁ¬½ÓPS/2键盘和鼠标; 另外提供一个5芯单列直插插座供外部键盘连接USB接口符合USB规格 Rev.1.0Ö§³ÖIrDA SIR和Sharp ASKIR协议PICMG总线温度：　０°Ｃ　ｔｏ　６０°Ｃ　尺寸：　３３８ｍｍ　ｘ　１２２ｍｍFSC-1711VN主板说明书概述–5１．５　ＣＰＵ卡外形尺寸 单位FSC-1711VN主板说明书6 – 硬件安装2.硬件安装2.1　ＦＳＣ－１７１１ＶＮ　ＣＰＵ卡构造图　VGAC O M 2并口软驱电缆插座I D E 1: 第一组P r i m a r y I D E 电缆插座I D E 2: 第二组S e c o n d a r y I D E 电缆插座I D E 1I D E 2D D R 1: 第一组D I M M 内存插槽D D R 2: 第二组D I M M 内存插槽 A T X P O WE RIR1Intel ICH2 晶片组Intel RG82845 晶片组Socket 478CPU 插座CPUFANCHSFANPN1USB2USB1JCC1COM1LAN CN10J1J3ATIRage 128 Pro 晶片组FSC-1711VN主板说明书硬件安装 –7２．２　安装步骤　请依照下列步骤组装您的电脑:1. 参照用户手册将CPU 卡上所有Jumper(跳线帽)调整正确2. 安装中央处理器(CPU)µçÀÂ本CPU 卡关键元器件都是集成电路因此请先做好以下的准备最好是先拔掉电源插头2.拿CPU 卡时手握板边3.接触集成电路元件(如CPU4.在集成电路元件未安装前再插上电源插头设置 JCC1 短路 [ 1-2 ] (正常工作状态所有系统设置恢复成默认值)如果由于BIOS 设置不当而引起系统不能正常启动再启动系统FSC-1711VN主板说明书8 – 硬件安装２．４中央处理器安装　安装CPU 按以下步骤进行Ø 手握CPU 两边将CPU 的第一脚对准CPU 插座上的缺脚记号再将CPU 插入插座再将CPU 座手柄恢复到原来的位置锁定好请确认您使用的中央处理器符合本CPU 卡的范围要求在系统启动后BIOS 将自动侦测CPU 的类型及频率为确保系统稳定工作目前大多数的Intel CPU 的倍频是在出厂时就设定了的 CPU 座２．５　ＣＰＵ　散热风扇安装　安装CPU 散热风扇按以下步骤进行再将ＣＰＵ散热风扇一边的卡柄以平均施力的方式往下压并扣入风扇固定座以同样地方式再将另一边卡柄扣紧注意在安装风扇前经常检查CPU 风扇是否正常工作FSC-1711VN主板说明书硬件安装 –9２．６系统内存安装　本CPU 卡配有两条DDR (Double Data Rate) DIMM184pin 内存插槽要注意以下几点先对准内存DIMM 条的缺口和DIMM 插槽的缺口后再用力插到位则最好插在DIMM1上则插在DIMM1和DIMM2上最大内存容量达2GBØ 最好选择带SPD µÄDIMM 内存条Ø 两条DIMM 内存条的总容量不得超过2GB有些接口/插针的针脚可能是电源输出可能会损坏主板搞清楚各针脚的编号再进行配置如何识别插头插座的第一针脚 Ø 观察插头插座旁边的文字标记1Ø 看看背面的焊盘Ø 电缆上的红线或与其他标记表示要与插座的第一脚相接FSC-1711VN主板说明书10 – 硬件安装２．７．１　ＩＤＥ接口　本ＣＰＵ卡提供两组４０－针蓝色ＩＤＥ接口需注意以下三点一个为主设备Slave 硬盘上提供相应的跳线来将其配置成主设备还是从设备使用主设备接在电缆的末端如果该IDE 接口只连一台设备并接在电缆的末端必须使用80线的专用扁平电缆例如不要接在同一个IDE 接口上IDE 电缆有红色标示的 为第一脚IDE1ÖжÏÇëÇóIDE2ÓÃI R Q 15I D E 1ÓÃD R Q 0/D A C K 0FSC-1711VN主板说明书硬件安装 –11２．７．２　软驱接口　本ＣＰＵ卡提供一组３４－针黑色软驱接口接线时请注意电缆和插座的方向软驱电缆有红色标示的 为第一脚FDC1Ground 33 34 Diskette changeFSC-1711VN主板说明书12 – 硬件安装２．７．３　并行接口　本ＣＰＵ卡提供一组标准的２６－针并行接口PRINT1并行接口注信号名称管脚管脚信号名称 Line printer strobe 1 14 AutoFeed PD0, parallel data0 2 15 Error PD1, parallel data 1 3 16 Initialize PD2, parallel data 2 4 17 Select PD3, parallel data 3 5 18 Ground PD4, parallel data 4 6 19 Ground PD5, parallel data 5 7 20 Ground PD6, parallel data 6 8 21 Ground PD7, parallel data 7 9 22 Ground ACK, 10 23 Ground Busy 11 24 Ground Paper empty 12 25 GroundPRINT1Select 13 26 ªÅFSC-1711VN主板说明书硬件安装 – 13２．７．４　串行接口　本CPU 卡提供两个串行通讯口ＣＯＭ１是一组标准的D-Sub9接口可直接与外部设备连接10芯转9芯这些接口可以连接具有RS-232标准接口的鼠标数字相机等设备COM2COM1ＣＯＭ１管脚　信号名称　1 DCD, Data carrier detect2RXD, Receive data 3 TXD, Transmit data 4 DTR, Data terminal ready5 GND, ground6 DSR, Data set ready7 RTS, Request to send8 CTS, Clear to send .COM19 RI, Ring indicatorＣＯＭ２管脚　信号名称　1 DCD2 RX3 TX4 DTR5 GND6 DSR7 RTS8 CTS9 RI.COM210空FSC-1711VN主板说明书14 – 硬件安装２．７．５　显示输出接口　本CPU 卡提供一个15芯D 型显示输出接口显示输出接口VGA«H ¦W 管脚 管脚 獺Red 1 2 Green Blue 3 4 上拉至+5V GND 5 6 GND GND 7 8 GND +5V. 9 10 GND 上拉至+5V 11 12 DDCDATA HSYNC 13 14 VSYNCVGADDCCLK15２．７．６　高速以太网接口　本CPU 卡提供一个RJ-45 10/100Mb 以太网接口上面/左面一盏表示网络活动状态RJ-45网络接口 LAN以下给出了它的管脚信号名称ACTLED TD+(pin#1) TD-(pin#2) RD+(pin#3)RD-(pin#6)LILEDTD+,TD-: ¥¿/ 发送数据信号タ/ 接收数据信号在插座上面或右面在插座下面或左面硬件安装 –15２．７．７　ＵＳＢ设备接针　本CPU 卡提供两组USB 设备接针ＵＳＢ２多达四个USB Ver 1.0端口ＵＳＢ２包括端口2和端口3ÐèʹÓÃת»»µçÀ½«USB 接口信号接到标准USB插座16 – 硬件安装２．７．８　键盘／鼠标接口　KB/MOUSE 是一个键盘和鼠标合用的6脚mini DIN 插座, 可直接插PS/2键盘另外J1如果您使用PS/2鼠标如果系统并无检测到PS/2鼠标的使用外部键盘插座J1PS/2键盘/鼠标插座管脚 信号名称 1 Keyboard data 2 Mouse data 3 GND 4 5V 5 Keyboard clockKB/MOUSE6 Mouse clock1 管脚 信号名称 1 Keyboard clock2 Keyboard data3 空4 GND 55 5VJ1硬件安装 –17２．７．９　风扇插座　本ＣＰＵ卡提供两组标准风扇插座ＣＨＳＦＡＮ使用风扇插座时要注意以下三点4.2瓦电源线在中间位置通常为黑色其他颜色有些风扇没有转速检测会损坏CPU 卡建议使用带转速检测风扇２．７．１０　电源供应插座　本CPU 卡提供多达三种供电方式Ø 通过无源底板５伏后备电源使用无源底板上的ATX 电源插座供电注意为确保CPU卡不被损坏1 2 33转速输出脉冲18 – 硬件安装CN10(+12V 电源座)与电源的4P 电源线相连接以满足CPU 卡有足够的电源供电事先应将AC 交流电拔去并接好其他相关配件才可以将AC 交流电插入交流电源插座即ACPI 功能BIOS 设置时而对ATX 电源则要打开ACPI 功能信号地J3CN10管脚信号名称1 GND2 GND3 +12V 4+12V硬件安装 –19ATXPOWER２．７．１１红外线模组接针　本CPU 卡提供一组红外线模组插针要注意的是红外接口可以连COM2口的TxD/RxD 或专用的红外接头IR1ÒªÓÃBIOS 设置功能将COM2端口的工作模式请参考BIOS 设置有关COM2串行通讯端口部分1PN1第1这个接针连接到系统的电源指示灯上电源指示灯亮电源指示灯灭＋５Ｖ（Ｐ１）　ＩＲＲＸ（Ｐ３） ＩＲＴＸ（Ｐ５）　Ｎ．Ｃ．（Ｐ２） Ｎ．Ｃ．（Ｐ６）　20 – 硬件安装2)键盘锁开关接针５针 KEYLOCK3)睡眠控制接针１６针SLEEPSLEEPÓøð´Å¥¿ÉÇл»ÏµÍ³µÄ¹¤×÷״̬=4) ATX 电源开/关控制接针１７针PWR.SWÓÃÀ´½Óͨ»ò¶Ï¿ªATX 电源此按钮有两种模式可通过BIOS 设置　当设为开/关模式时即或关闭正工作着的ATX 电源当系统处于正常工作状态时不超过4秒钟则系统会进入睡眠状态同样不超过4秒钟则系统恢复正常工作状态ATX 电源才会被关闭按下电源开关即可进入睡眠模式当此灯闪烁时休眠状态当此灯灭时6)复位按钮接针１９针 RESET SWRESETµ±ÏµÍ³·¢Éú¹ÊÕϲ»ÄܼÌÐø¹¤×÷ʱ²»±Ø¿ª¹ØµçÔ´7) IDE设备状态指示灯接针２０针IDELEDµ±IDE 设备如硬盘在进行读写操作时候表示IDE 设备正在运行中硬件安装 –218)系统扬声器接针１３外接扬声器接针不必外接扬声器则可将此接头的信号接到声卡上PN1信号名称 管脚 管脚 信号名称 Speaker out 11 1 Power LED + No Connect 12 2 No connect GND 13 3 GND +5V 14 4 Keylock No connect 15 5 GND GND 16 6 Sleep GND 17 7 Power GND 18 8 Green LED+ Reset 19 9 GND IDE LED - 20 10 IDE LED +2011 10 1 SpeakerPower LED And Keylock SleepPowerGRNLEDResetIDELED4. BIOS设置４．１　BIOS介绍　BIOS 基本输入输出系统主要功能包括设置各系统部件的工作状态诊断系统各部件的功能并报告故障引导操作系统等可用来配置各系统参数设置值调整系统设备的资源分配等等可使系统稳定可靠地工作不适当的甚至错误的BIOS参数设置工作不稳定本章内容就是关于BIOS设置的系统正常开机后此时(其他时间无效)ͨ³£Îª<Del>键CMOS中BIOS设置内容被破坏时通过BIOS修改的所有设置值都保存在系统的CMOS存储器中即使切断市电除非执行清除CMOS内容的操作BIOS的设置直接影响到电脑的性能甚至不能开机由于本公司不断研发更新BIOS设置程序有可能跟您目前所使用的BIOS设置程序不完全相同22 – BIOS设置BIOS 设置 – 23当SETUP 程序启动之后AMIBIOS HIFLEX SETUP UTILITY - VERSION 1.54(C)2001 American Megatrends, Inc. All Rights ReservedStandard CMOS Setup Advanced CMOS Setup Advanced Chipset Setup Power Management Setup PCI / Plug and Play SetupPeripheral Setup Hardware Monitor Setup Auto-Detect Hard Disks Change User Password Change Supervisor PasswordAuto Configuration with Optimal Settings Auto Configuration with Fail Safe SettingsSave Settings and Exit Exit Without SavingＳｔａｎｄａｒｄ　ＣＭＯＳ　ｓｅｔｕｐ　ｆｏｒ　ｃｈａｎｇｉｎｇ　ｔｉｍｅ，　ｄａｔｅ，　ｈａｒｄ　ｄｉｓｋ　ｔｙｐｅ，　ｅｔｃ． ＥＳＣ：Ｅｘｉｔ　：Ｓｅｌ Ｆ２／Ｆ３：Ｃｏｌｏｒ Ｆ１０：Ｓａｖｅ　＆　Ｅｘｉｔ 主菜单设置项的下方显示的是菜单的控制键也就是控制键部分的下面 注意则您可以清除ＣＭＯＳ内容后重新开机进入ＢＩＯＳ设置程序使用ＢＩＯＳ预设的各项默认值否则不要对芯片集的默认值作任何改动24 – BIOS 设置4.2.1　Standard CMOS Setup ／标准ＣＭＯＳ设置　这个选项可以设置系统的基本硬件配置如果您的电脑是已经组装好的如果是ＣＭＯＳ中的数据遗失了那么您就必须自行改变设置值　那么设置值也将会遗失如果您要知道关于每一个选项的更多资讯在屏幕左下方会显示说明事项在选项上按< F1 >可以得到更多的资讯您不能去更动它用< Page Up> / < Page Down >或是< + > / < - >来设置目前的日期各项目合理的范围是Time选择此选项以时/分/秒的格式来表示Hour /时(00-23), Minute /分(00-59), Second /秒(00-59).Pri Master/Slave¡B Sec Master/Slave¡G要设置 IDE 硬盘 用ＡＵＴＯ　 用主菜单中　Ａｕｔｏ－Ｄｅｔｅｃｔ　Ｈａｒｄ　Ｄｉｓｋｓ　选项 用ＵＳＥＲ　设置硬盘型态的项目包括了CYLN(磁柱数目)WPCOM(写前补偿)SIZE项目会因您的设置而自动调整MODE项目是针对IDE 硬盘而设计的ＥＳＤＩ等硬盘可以忽略此值Normal, Large, LBA,或是设成Auto在528MB以上否则用LargeËüÖ»ÓÃÔÚMS-DOS之下4.2.2　Advanced CMOS Setup ／　先进的ＣＭＯＳ设置　注意Ａｖａｉｌａｂｌｅ　Ｏｐｔｉｏｎｓ：　Ｑｕｉｃｋ　Ｂｏｏｔ Ｅｎａｂｌｅｄ 三次测试而每一次的POST1st Boot Device (Disabled)本项目指定最先用来引导系统的设备根据系统配置的不同Floppy CDROM ZIP100LS120 HDD – 1 Inter(R) BooHDD - 0 HDD – 2 DisabledSCSI HDD – 3S.M.A.R.T. for Hard Disks (Disabled)这个选项可以开启或关闭IDE硬盘之自我监测Bootup Num-Lock (On)本项目在On时会开启键盘上Number Lock的功能BIOS会对软驱执行一次寻道操作Primary Display (VGA/EGA)设置系统的显示模式EGA/VGAAbsent如果您用的是VGA或更高级的显示器　　ＥＧＡ／ＶＧＡ Ｆｏｒ　ＥＧＡ，　ＶＧＡ，　ＳＥＧＡ，　ＳＶＧＡ 默认) ｏｒ　ＰＧＡ　ｍｏｎｉｔｏｒ　ａｄａｐｔｅｒｓ．　（CGA 40 Power up in 40 column mode.CGA 80 Power up in 80 column mode.MONO For Hercules or MDA adapters.Password Check (Setup) 可以设置为 Setup 或 AlwaysAlways方式则在开机后总会先询问密码一般设置为EnabledC000,32k -　DC00,16k Shadow (Disabled)本项决定适配卡的ROM是否采用影子内存工作方式用户可以根据自己所装适配卡的说明书进行选择设置可以不进行设置4.2.3 Advanced Chipset Setup／高级芯片组设置　注意Ａｖａｉｌａｂｌｅ　Ｏｐｔｉｏｎｓ：　ＣＰＵ　Ｒａｔｉｏ　Ｓｅｌｅｃｔｉｏｎ Ｌｏｃｋｅｄ 通常无法通过ＢＩＯＳ来改变AutoAuto为系统自动识别否则会导致系统工作不稳定甚至ＣＰＵ损坏Auto¿ÉÉèÖÃ200MHz自动选择Configure SDRAM Timing by SPD (Enabled)当设为Enabled时当设为Disabled时, BIOS以用户自定义的参数对系统硬件做初始化否则不要自己定义这些参数SDRAM RAS# Precharge (3 Clocks)这个选项用来控制给SDRAM下Precharge命令后SDRAM RAS# to CAS# Delay (3 Clocks)这个选项用来控制给SDRAM下激活命令到下读写命令所需时间在多长的时间内没有存取动作就关闭Infinite(无限大不要关闭)8 Clocks64 Clocks¶ø15M-16M是系统所使用是可以将存储器中15MB-16MB 的地址部份保留给ISA扩展卡作为其需要时用Texture DataUSB Function (All USB Port)这个选项可用来启用全部四个USB接口仅启用USB 0-1两接口USB Device Legacy Support (Disabled)本选项设为Enable时鼠标和软驱等老式设备在未安装USB驱动程序的情况下就能使用运行BIOS SETUP时Ｗｉｎｄｏｗｓ３．ｘ／９５环境下4.2.4 Power Management Setup ／电源管理设置　在电源管理菜单中做适当的设置既可节省能源　AMIBIOS SETUP - Power Management Setup(C)2001 American Megatrends, Inc. All Rights ReservedＡｖａｉｌａｂｌｅ　Ｏｐｔｉｏｎｓ：　Ｎｏ　Ｙｅｓ ＡＣＰＩ　Ａｗａｒｅ　Ｏ／Ｓ ＮＯ ／１４９０Ｆ Ｔｈｅｒｍａｌ　Ｓｌｏｗ　Ｃｌｏｃｋ　Ｒａｔｉｏ ５０．０％ Ｐｏｗｅｒ　Ｂｕｔｔｏｎ　Ｆｕｎｃｔｉｏｎ Ｏｎ／Ｏｆｆ Ｒｅｓｔｏｒｅ　ｏｎ　ＡＣ／Ｐｏｗｅｒ　Ｌｏｓｓ Ｐｏｗｅｒ　Ｏｎ Ｒｅｓｕｍｅ　Ｏｎ　Ｒｉｎｇ Ｄｉｓａｂｌｅｄ Ｒｅｓｕｍｅ　Ｏｎ　ＬＡＮ Ｄｉｓａｂｌｅｄ Ｒｅｓｕｍｅ　Ｏｎ　ＰＭＥ＃ Ｄｉｓａｂｌｅｄ ＥＳＣ：Ｅｘｉ　◆□：ＳｅｌＰｇＵｐ／ＰｇＤｎ：ＭｏｄｉｆｙＦ１：Ｈｅｌｐ　Ｆ２／Ｆ３：ＣｏｌｏｒACPI A ware O/S (NO)本项用来开启/关闭ACPIÔòÓ¦ÉèΪ; 若使用的是A TX电源Yes高级电源管理Video Power Down Mode (Suspend)本选项用来决定在系统一段时间不动作后设置项有Suspend/延缓模式Hard Disk Power Down Mode本选项用来决定在系统一段时间不动作后设置项有Suspend/延缓模式系统备用模式欲设置此项Suspend Time Out (Minute) (Disabled)该选项设置预定电源管理事件发生多长时间即进入Suspend ModeÓ¦Ô¤ÏȽ«Power Management/APM设为Enabled状态欲设置此项Power Button Function (On/Off )内定值On/Off表示如果ATX开关被按下不到四秒Suspend设置表示如果ATX开关被按下不到四秒时无论什么设置会将系统关机220V AC交流电系统应处在什么状态Power On: 一接上AC220V市电便开机Power Off: 接上AC220V市电时不开机Last State: 如果掉电之前系统处于开机状态否则系统保持关机状态4.2.5 PCI / Plug and Play Setup ／ＰＣＩ即插即用设置　本项目可以设置具备即插即用PCI 插槽的特性因此AMIBIOS SETUP - PCI / Plug and Play Setup(C)2001 American Megatrends, Inc. All Rights ReservedＡｖａｉｌａｂｌｅ　Ｏｐｔｉｏｎｓ： Ｎｏ　Ｙｅｓ Ｐｌｕｇ　ａｎｄ　Ｐｌａｙ　Ａｗａｒｅ　Ｏ／Ｓ Ｎｏ 假如此项设置为若您所用的操作系统没有即插即用功能请将该项设置为以发挥PCI 的最佳效能Primary Graphics Adapter (AGP )若系统中除装在CPU板上的AGP VGA显示控制器外则可用该项指定优先使用的显示接口设置值有３，４，５，７，９，１０，１１．　DMA Channel 0-7(PNP )该项设置用来指定DMA通道给即插即用(PNP»¹ÊǸø·Ç¼´²å¼´ÓõÄISA设备使用Ｐｌｕｇ－ａｎｄ－Ｐｌａｙ）BIOS设置– 3536 – BIOS 设置4.2.6 Peripheral Setup ／外围设备的设置　AMIBIOS SETUP - Peripheral Setup(C)2001 American Megatrends, Inc. All Rights ReservedＡｖａｉｌａｂｌｅ　Ｏｐｔｉｏｎｓ： Ｄｉｓａｂｌｅｄ　Ｐｒｉｍａｒｙ　Ｓｅｃｏｎｄａｒｙ　Ｂｏｔｈ ＥＳＣ：Ｅｘｉ　◆□：Ｓｅｌ　 ＯｎＢｏａｒｄ　ＩＤＥ Ｂｏｔｈ ＯｎＢｏａｒｄ　ＦＤＣ Ａｕｔｏ ＯｎＢｏａｒｄ　Ｓｅｒｉａｌ　Ｐｏｒｔ　Ａ Ａｕｔｏ　ＯｎＢｏａｒｄ　Ｓｅｒｉａｌ　Ｐｏｒｔ　Ｂ Ａｕｔｏ　Ｓｅｒｉａｌ　Ｐｏｒｔ　Ｂ　Ｍｏｄｅ Ｎｏｒｍａｌ　 ＩＲ　Ｄｕｐｌｅｘ　Ｍｏｄｅ Ｈａｌｆ　Ｄｕｐｌｅｘ ＩＲ　Ｐｉｎ　Ｓｅｌｅｃｔ ＩＲＲＸ／ＩＲＴＸ ＯｎＢｏａｒｄ　Ｐａｒａｌｌｅｌ　Ｐｏｒｔ Ａｕｔｏ　Ｐａｒａｌｌｅｌ　Ｐｏｒｔ　Ｍｏｄｅ ＥＣＰ　ＥＰＰ　Ｖｅｒｓｉｏｎ Ｎ／Ａ　Ｐａｒａｌｌｅｌ　Ｐｏｒｔ　ＩＲＱ Ａｕｔｏ　Ｐａｒａｌｌｅｌ　Ｐｏｒｔ　ＤＭＡ　Ｃｈａｎｎｅｌ Ａｕｔｏ　ＰｇＵｐ／ＰｇＤｎ：ＭｏｄｉｆｙＦ１：Ｈｅｌｐ　Ｆ２／Ｆ３：ＣｏｌｏｒOnboard IDE (Both )该项设置用来控制CPU 板上两个主IDE 接口是否可用默认设置Both 同时使能IDE1和IDE2Primary 单独使能IDE1Onboard FDC (Auto )该项设置用来控制CPU 卡上的软驱接口是否可用AUTO 为BIOS 自动控制并对中断和I/O地址作响应分配ＢＩＯＳ自动配置Disabled(禁止不用)2F8/COM22E8/COM4BIOS 设置 – 37Onboard Serial Port B (Auto )该项设置用来配置CPU 板上第二个串行接口的类型有Auto3F8/COM13E8/COM3Serial Port B Mode (Normal)该选项用来指定CPU 板上第二个串行接口的工作模式其他设置值为红外通讯接口标准事先应将Serial Port B Mode 设为非Normal 状态IRRX/IRTX: 由专用的红外插座输出Onboard Parallel Poart (Auto)该项用来配置并行口所用的的中断及I/O 地址范围Normal, Bi-Dir, EPP 或ECPBi-Dir 表示双向数据传输的正常速度而ECP 表示在双向数据传输下比EPP 更快的速度38 – BIOS 设置4.2.7 Hardware Monitor Setup ／系统监控设置　注下面显示的数值为只读值／１７２℉ Ｃｕｒｒｅｎｔ　Ｓｙｓｔｅｍ　Ｔｅｍｐｅｒａｔｕｒｅ ３５／９５℉ Ｃｕｒｒｅｎｔ　ＣＰＵ　Ｆａｎ　Ｓｐｅｅｄ ４９６３　ＲＰＭ Ｃｕｒｒｅｎｔ　Ｃｈａｓｓｉｓ　Ｆａｎ　Ｓｐｅｅｄ ４９６３　ＲＰＭ Ｖｃｏｒｅ １．３６０　Ｖ Ｖｔｔ １．４７２　Ｖ Ｖｉｏ ３．２４８　Ｖ ＋　５．０００Ｖ ５．００３　Ｖ ＋１２．０００Ｖ １１．６１９　Ｖ －１２．０００Ｖ －１１．５７９　Ｖ　 －　５．０００Ｖ －４．７７６　Ｖ Ｂａｔｔｅｒｙ ２．９５０　Ｖ ＋５Ｖ　ＳＢ ４．５０９　Ｖ ＥＳＣ：Ｅｘｉ　◆□：ＳｅｌＰｇＵｐ／ＰｇＤｎ：ＭｏｄｉｆｙＦ１：Ｈｅｌｐ　Ｆ２／Ｆ３：ＣｏｌｏｒCurrent CPU Temperature显示的是当前CPU 封装表面的温度.Current System Temperature 显示的是当前机箱内的工作温度.Current CPU Fan Speed显示的是CPU 风扇当前的转速.Current Chassis Fan Speed 显示的是机箱风扇当前的转速.Vcore显示的是当前CPU的核心工作电压Vio显示的是3.3V电压的当前值4.2.8 Auto- Detect Hard Disk／自动检测硬盘　选定该功能并回车这样但当改用不同的硬盘时BIOS设置– 394.2.9 Change Supervisor&User Password／口令设置　Supervisor Password的口令设置是针对开机及BIOS设置做的安全防护系统初始设置值并没有做任何的口令设置只要键入想要的口令设置后按下< Enter >键即可请注意而且有大小写之分按下< Enter >键之后当您在做好口令设置之后屏幕内容会自动恢复到主菜单画面指定您要何时让系统要求输入口令您可以进入Change Supervisor&User Password°´ÏÂ< Enter >键取代即可应先击活项之后才能对项进行操作40 – BIOS设置4.2.10 A uto Configuration with Optimal Settings／自动最佳默认设置　该选项的功能是将各项设置初始化为可获得最佳系统性能的值先选中主菜单Auto Configuration with Optimal Settings 这一项接着系统会在屏幕上显示出要您确认的信息或是按下< N >键及< Enter >键取消该项功能BIOS设置– 414.2.11 Auto Configuration with Fail Safe Settings／安全默认设置　该选项的功能是将各项设置初始化为实现最基本的和最安全的系统功能的值先选中主菜单Auto Configuration with Fail Safe Settings这一项接着系统会在屏幕上显示出要您确认的信息或是按下< N >键及< Enter >键取消该项功能42 – BIOS设置BIOS 设置 – 434.2.12 Save Settings and Exit ／保存并退出　当您完成了所有的修改操作可执行此项功能要执行此操作AMIBIOS HIFLEX SETUP UTILITY - VERSION 1.54(C)2001 American Megatrends, Inc. All Rights ReservedStandard CMOS Setup Advanced CMOS Setup Advanced Chipset Setup Power Management Setup PCI / Plug and Play SetupPeripheral Setup Hardware Monitor Setup Auto-Detect Hard Disks Change User Password Change Supervisor PasswordAuto Configuration with Optimal Settings Auto Configuration with Fail Safe SettingsSave Settings and Exit Exit Without SavingＳｔａｎｄａｒｄ　ＣＭＯＳ　ｓｅｔｕｐ　ｆｏｒ　ｃｈａｎｇｉｎｇ　ｔｉｍｅ，　ｄａｔｅ，　ｈａｒｄ　ｄｉｓｋ　ｔｙｐｅ，　ｅｔｃ． ＥＳＣ：Ｅｘｉｔ　：Ｓｅｌ Ｆ２／Ｆ３：Ｃｏｌｏｒ Ｆ１０：Ｓａｖｅ　＆　Ｅｘｉｔ 4.2.13 Exit Without Saving ／不保存退出　当您所做的任何更改设置的动作不想存入CMOS 的存储器中您可在主菜单上选取 Exit Without Saving 并按下< Y >键及< Enter >键即可44 – 驱动软件安装5. 驱动软件安装５．１　安装简介　本文中提到的驱动程序安装路径仅为参考从研祥驱动程序光盘上找到Ｉｎｔｅｌ　ＲＧ８２８４５芯片组的驱动程序ＥｖｏｃＣＰＵ＼Ｄｒｉｖｅｒ＼ｉ８４５该程序立即自行解压并启动ＩｎｓｔａｌｌＳｈｉｅｌｄ安装向导下一步　单击按钮认可该协议后需重新启动才能使新装的驱动程序生效　从研祥驱动程序光盘上找到ATI Rage128Pro VGA 驱动程序所在子　目录ＥｖｏｃＣＰＵ＼Ｄｒｉｖｅｒ＼ＡＴＩ　Ｒａｇｅ１２８Ｐｒｏ＼Ｗｉｎ９Ｘ　ＥｖｏｃＣＰＵ＼Ｄｒｉｖｅｒ＼ＡＴＩ　Ｒａｇｅ１２８Ｐｒｏ＼Ｗｉｎ２０００　ＥｖｏｃＣＰＵ＼Ｄｒｉｖｅｒ＼ＡＴＩ　Ｒａｇｅ１２８Ｐｒｏ＼Ｗｉｎ＿ＸＰ　ＥｖｏｃＣＰＵ＼Ｄｒｉｖｅｒ＼ＡＴＩ　Ｒａｇｅ１２８Ｐｒｏ＼ＮＴ４Ｓｅｔｕｐ．ｅｘｅＡＴＩ　ｄｉｓｐｌａｙ　ｄｒｉｖｅｒ是（Ｙ）需重新启动才能使新装的驱动程序生效。

SFH 5711Hochgenauer Umgebungslichtsensor High Accuracy Ambient Light SensorLead (Pb) Free Product - RoHS Compliant 2007-04-031Wesentliche Merkmale•Optohybrid mit logarithmischem Stromausgang •Perfekt an die Augenempfindlichkeit (V λ) angepasst•Niedriger Temperaturkoeffizient der Fotoempfindlichkeit•Hohe Genauigkeit über weiten Beleuchtungsstärkebereich •Automotive Freigabe Anwendungen •Anwendungen im Automobilbereich •Sonnenlichtsensor / Fahrlichtkontrolle •Steuerung von Displayhinterleuchtungen •Mobile GeräteTyp TypeBestellnummer Ordering codeAusgangsstrom , E v = 1000lx, (white LED LW 541C) Output current , I OUT / μA SFH 5711-2/31)1)Nur eine Gruppe innerhalb einer Verpackungseinheit, siehe Kenndaten. Only one bin within one packing unit, see characteristicsQ65110A451327 - 32SFH 5711-1/21)on request 25 - 30SFH 5711-3/41)on request29 - 34Features•Opto hybrid with logarithmic current output •Perfect match to Human Eye Sensitivity (V λ) •Low temperature coefficient of spectral sensitivity•High accuracy over wide illumination range •Automotive qualified Applications •Automotive applications•Sunlight sensor / head lamp control •Control of display backlighting •Mobile devices2007-04-032GrenzwerteMaximum Ratings Bezeichnung ParameterSymbol SymbolWert Value Einheit Unit Betriebs- und LagertemperaturOperating and storage temperature range T stg – 40 … + 1001)1)Maximum operation temperature of 100°C is only valid after soldering with JEDEC level 4 preconditioning. With JEDEC level 3 max. preconditioning operating temperature is 85°C.°C Versorgungsspannung Supply voltage V CC6V Ausgangsspannung Output voltageV OUT< V CC V Elektrostatische Entladung Electrostatic dischargeHuman Body Model according to EOS/ESD-5.1-1993ESD 2kVEmpfohlener ArbeitsbereichRecommended Operating Conditions Bezeichnung Parameter Symbol SymbolWert Value Einheit Unitmin.typ.max.Betriebsspannung Supply voltageV CC 2.35.5V Beleuchtungsstärke IlluminanceT A = – 30 °C ... + 70 °C T A = – 40 °C ... + 100 °CE V3 ... 80k 10...80klxA CharacteristicsBezeichnung Parameter SymbolSymbolWertValueEinheitUnitmin.typ.max.Stromaufnahme, E V = 0 Current consumptionV CC = 2.5 VV CC = 5.0 V ICC410420500μAStromaufnahme, E V = 1000lx Current consumption, E V = 1000lx V CC = 2.5 VV CC = 5.0 V ICC460470550μASpektraler Bereich der Fotoempfindlichkeit Spectral range of sensitivity λ10%475 ...650nmWellenlänge der max. FotoempfindlichkeitWavelength of max. photosensitivityλs max540555570nmAbmessung der bestrahlungsempfindlichen FlächeDimensions of radiant sensitive area L x BL x W0.4 x0.4mm x mmAusgangskapazitätOutput capacitanceC OUT3pFTransferfunktion Transfer function, s. Fig. 1G9.51010.5µA / dekµA / decAbweichung der Ausgangskennlinie von derLogarithmierfunktionDeviation of outputcharacteristic from logarithmicfunction, s. Fig. 1L- 3+ 3%Maximale Ausgangsspannung Maximum output voltage V OUT V CC- 0.5VEinschaltzeit, E V = 1000 lx Power on time, E V = 1000 lx V CC = 0V -> V CC tON0.1 1.2msAntwortzeit, R L = 25 kOhm, C = 1 nF Response time, s. Fig. 2E V = 100 -> 1000 lxE V = 1000 -> 100 lx tr/ t f0.030.1ms2007-04-0332007-04-034Figure 1Ersatzschaltbild CircuitryAusgangsgenauigkeit über Temperaturbereich 1) Output accuracy over temperature range 1) E V = 1000 lxT A = – 40 °C ... + 100 °C T A = – 30 °C ... + 70 °C T A = 0 °C ... + 50 °CΔI OUT− 2.0 − 1.5 − 0.7± 1.0 ± 0.6 ± 0.2+ 2.0 + 1.5 + 0.7µAAusgangsdunkelstrom, E V = 0 Output dark currentI out0.1100nA1)Diese Werte entsprechen einer Photodiode mit einem TC von ungefähr 0.3 %/K. These values correspond to a photodiode with a TC of approximately 0.3 %/K.Gruppierung (T A = 25 °C) Binning Bezeichnung ParameterSymbol SymbolWert Value Einheit Unit-1-2-3-4Ausgangsstrom 1) Output current E V = 1000lx (white LED LW 541C)1)3µA Gruppenbreite entspricht einem Verhältnis von 1:2 in der Bestrahlungsstärke. 3µA bin width is equivalent to a spread of 1:2 of the irradiance.I out 25 ... 2827 (30)29 (32)31 (34)μAA Characteristics Bezeichnung ParameterSymbol SymbolWert Value Einheit Unit min.typ.max.Figure 2Definition der AntwortzeitDefinition of Response Time 2007-04-0352007-04-036Relative Spectral Sensitivity of photodiodeOutput Current I= f (E )Directional Characteristics of photodiode = ()Current Consumption IMaßzeichnungPackage OutlinesMaße in mm (inch) / Dimensions in mm (inch)AnschlußbelegungPin configurationPin #Description1GND2GND3V CC4I OUT2007-04-037Empfohlenes LötpaddesignRecommended Solderpad DesignMaße in mm (inch) / Dimensions in mm (inch)2007-04-0382007-04-039LötbedingungenVorbehandlung nach JEDEC Level 3 Soldering ConditionsPreconditioning acc. to JEDEC Level 3Reflow Lötprofil für bleifreies Löten(nach J-STD-020C) Reflow Soldering Profile for lead free soldering(acc. to J-STD-020C)Published byOSRAM Opto Semiconductors GmbHWernerwerkstrasse 2, D-93049 Regensburg © All Rights Reserved.The information describes the type of component and shall not be considered as assured characteristics.Terms of delivery and rights to change design reserved. Due to technical requirements components may contain dangerous substances. For information on the types in question please contact our Sales Organization.PackingPlease use the recycling operators known to you. We can also help you – get in touch with your nearest sales office. By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs incurred.Components used in life-support devices or systems must be expressly authorized for such purpose! Critical components 1 , may only be used in life-support devices or systems 2 with the express written approval of OSRAM OS.1A critical component is a component usedin a life-support device or system whose failure can reasonably be expected to cause the failure of that life-support device or system, or to affect its safety or effectiveness of that device or system.2Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and sustain human life. If they fail, it is reasonable to assume that the health of the user may be endangered.。

PCI-1711/1711L是一款功能强大的低成本多功能PCI总线数据采集卡。

PCI-1711有2路模拟量输出通道，PCI-1711L没有模拟量输出通道。

用户可以在PCI-1711和PCI-1711L之间选择能够满足实际需要又节约成本的数据采集卡。

1.1.1 即插即用功能PCI-1711/1711L完全符合PCI规格Rev2.1标准，支持即插即用。

在安装插卡时，用户不需要设置任何跳和DIP拨码开关。

实际上，所有与总线相关的配置，比如基地址、中断，均由即插即用功能完成。

1.1.2 灵活的输入类型和范围设定PCI-1711/1711L有一个自动通道/增益扫描电路。

在采样时，这个电路可以自己完成对多路选通开关的控制。

用户可以根据每个通道不同的输入电压类型来进行相应的输入范围设定。

所选择的增益值将储存在SRAM中。

这种设计保证了为达到高性能数据采集所需的多通道和高速采样。

1.1.3 卡上FIFO（先入先出）存储器PCI-1711/1711L卡上提供了FIFO（先入先出）存储器，可储存1K A/D 采样值。

用户可以起用或禁用FIFO缓冲器中断请求功能。

当启用FIFO中断请求功能时，用户可以进一步指定中断请求发生在1个采样产生时还是在FIFO半满时。

该特性提供了连续高速的数据传输及Windows下更可靠的性能。

1.1.4 卡上可编程计数器PCI-1711/1711L有1个可编程计数器，可用于A/D转换时的定时触发。

计数器芯片为82C54兼容的芯片，它包含了三个16位的10MHz时钟的计数器。

其中有一个计数器作为事件计数器，用来对输入通道的事件进行计数。

另外两个计数器级联成1个32位定时器，用于A/D转换时的定时触发。

1.1.5 16路数字输入和16路数字输出PCI-1711/1711L提供16路数字输入和16路数字输出，使客户可以最大灵活的根据自己的需要来应用。

1.2 特点1. 16路单端模拟量输入2. 12位A/D转换器，采样速率可达100KHz3. 每个输入通道的增益可编程4. 自动通道/增益扫描5. 卡上1K采样FIFO缓冲器6. 2路12位模拟量输出（仅PCI-1711）7. 16路数字量输入及16路数字量输出8. 可编程触发器/定时器第二章安装与测试2.1 初始检查研华PCI-1711/1711L，包含如下三部分：一块PCI-1711/1711L PCI总线的多功能数据采集卡，一本使用手册和一个内含板卡驱动的光盘。

终端箱控制器（TBC）图1. 终端箱控制器（TBC）终端箱控制器（TBC）是APOGEE 自动化系统的一个组成部份。

该控制器是变风量（VAV）系统的房间温度控制提供高性能的直接数字控制（DDC）技术。

终端箱控制器和相关组件提供一个完全地电子控制系统。

TBC能独立或联网工作，以执行复杂的HVAC控制、监视和能源管理功能，而不须依赖高层处理机。

全面的电子化温度控制具有以下一些特点：特点●HVAC系统的PID 控制可使偏移最小并维持更紧密的设定点控制。

●适用于特殊应用的独特控制算法。

●空气流量报告。

●通过与房间传感器的手提式操作终端或与现场处理机的通讯进行诊断。

●利用手提式操作终端分配和更改设定点和控制参数。

●利用EEPROM储存设定点和控制参数，无需备用电池。

●断电复电无需操作员激活而自动联机。

●符合低静压的要求。

●经过验证的APOGEE自动化系统的DDC架构。

●无需校准，因而降低了维修费用。

●分离的最小和最大风量设定，适用于加热和冷却模式。

技术规范明细应用终端箱控制器可独立工作，也可作为APOGEE自动化系统的一部份。

它可控制一系列带有VAV压力的独立终端箱应用，其中包含：●使用于VAV冷却●VAV冷却或加热●热水再热（比例调节）的VAV●电再热的VAV（1、2或3级）●具有热水再热的VAV风机串、并联●具有电再热的VAV风机串、并联（1、2或3级）说明终端箱控制器由一个微分压力转换器和一个电子控制器所组成。

可在控制器在架设一个自动复归模块，以适应那些不间断气流的应用。

气动转换器提供对气动风门和阀体操作器的控制。

控制算法己经预先编辑。

在选择应用并将单元控制地址分配与手提式操作终端后，控制器即可工作。

如需要，操作员可利用手提式操作终端调整在CFM（I/s）中的风量设定点、房间温度设定点及其它参数。

无需供货商的帮助即可对该控制器进行操作和修正。

微分压力转换器平均风速传感器（由VAV终端设备厂商提供）将风管风速的测量值传送至控制器。

The SL1711 is a quadrature downconverter, intended primarily for application in professional and consumer digital satellite tuners.The device contains all elements necessary, with the exception of external local oscillator tank to form a complete system operating at standard satellite receiver intermediate frequencies. It is intended for use with external carrier recovery.The device includes a low noise RF input amplifier, a reference VCO with prescaler output buffer and In-phase and Quadrature mixers with baseband buffer amplifiers containing AGC gain control.The SL1711 is optimised to drive a dual ADC converter such as the VP216.The SL1711 utilises a power MP package, whereas the SL1711B variant uses a standard MP16 plastic package and features a revised operating temperature.FEATURESs Single chip system for wideband quadrature downconversion s Compatible with all standard high IF frequencies s Excellent gain and phase match up to 30MHz baseband s High output referred linearity for low distortion and multi channel application s Simple low component applications Fully balanced low radiation design with fully integrated quadrature generation s High operating input sensitivity s On-board AGC facilitys On chip oscillator for varactor tuning or SAW resonator operation s ESD protection (Normal ESD handling procedures should be observed)APPLICATIONSs Satellite receiver systems s Data communications systems s Cable systemsORDERING INFORMATION SL1711/KG/MH1P (Sticks)SL1711/KG/MH1Q (Tape and Reel)SL1711B/KG/MP1S (Sticks)SL1711B/KG/MP1T (Tape and Reel)Fig. 1 Pin allocationSL1711Quadrature DownconverterPreliminary InformationSupersedes November 1996 version, DS4032 - 1.6DS4032 - 4.0 October 1997SL1711QUICK REFERENCE DATAFig. 2 SL1711 block diagram 2SL1711 FUNCTIONAL DESCRIPTIONThe SL1711 is a wideband quadrature downconverter, optimised for application in both professional and consumer digital satellite receiver systems and requiring a minimum external component count. It contains all the elements required for construction of a quadrature demodulator, with the exception of tank circuit for the local oscillator.A block diagram is shown in Fig. 2.The SL1711 oscillator can be used with either a varator tuned tank circuit or with a SAW resonator. Both configurations are described in the Application Notes section of this Data Sheet.A typical digital satellite tuner application from tuner input to data transport stream is shown in Fig. 13In normal application the second satellite IF frequency of typically 402.75 or 479.5 MHz is fed from the tuner SAW filter to the RF preamplifier, which is optimised for impedance match and signal handling. The amplifier output signal is then split into two balanced channels to drive the In-phase and Quadrature mixers. The typical RF input impedance is shown in Fig. 3In-phase and Quadrature LO signals for the mixers are derived from the on board local oscillator, which uses an external varactor tuned resonant network and is optimised for low phase noise. The VCO also drives an on board divide by 32 prescaler whose outputs can be used for driving an external PLL control loop for the VCO, where the PLL loop is contained within the QPSK demodulator, for example the VP305. For optimum performance in the varactor tuned application the VCO should be fully symmetric. The VCO has a disable facility by grounding pin 15, VCODIS; in normal applications this pin is pulled to Vcc via a 4K7 resistor.The mixer outputs are fed to balanced baseband AGC amplifier stages, which provide for a minimum of 16 dB of AGC control. The typical AGC characteristic is shown in Fig. 4.These amplifiers then feed a low output impedance true differential to single-ended converter output stage. In normal application the output can be either directly AC coupled to the ADC converter such as the VP216, which will generally have a high input impedance, or to drive an anti alias filter. In this later case the maximum load presented to the SL1711 must not exceed a parallel combination of 1KΩ and 20pF. The typical baseband output impedance is contained in Fig. 5.It is recommended that the device is operated with an output amplitude of 760mV under lock conditions.Under transient conditions the output should not exceed the clipping voltage.Input and output interface circuitry is contained in Fig. 6.The typical key performance figures at 480 MHz IF, 5V Vcc, 1 kΩ load and 25 deg C ambient are contained in table headed 'QUICK REFERENCE DATA'. With SAWR oscillator application the gain and phase match performance will typically exceed these numbers.34SL1711Fig.3 Typical RF input impedance-j0.2+j0.2+j0.5+j1+j2-j2-j1-j0.50.20.51START 350 MHzSTOP 650 MHzMarker 1 480MHzZreal = 96ΩZimag = 54ΩX5SL1711Fig. 6 I/O port peripheral circuitry 6SL1711C H P U M P1X T A L 12X T A L 23S D A4S C L5P 76P 67P 58P 49P 310N C11V c c12R F I /P13R F I /P14V e e15D R V 16I C 2S P 5611A G C1I O U T2V E E A 3I F I N B 4I F I N 5V C C A 6Q O U T7V E E C 8V C C C 9P S C A L B10P S C A L 11V E E B 12V C O A 13V C O B14V C O D I S 15V C C B 16/32O s c I M i x e rQ M i x e r I C 1S L 1711L 112n H C 123p 9D 1B B 811C 133p 31423L K 2T 2B C W 315VR 4110RS K 4Q C H O /P C 11220n FS W 1V C O D I S A B L ER 24K 75VS K 1R F I NC 1100n FC 2100n FR 175RL 54u 7L 64u 7C 3100n F C 4100p F C 5100n FC 6100p F C 7100n F C 8100p F +C 947u F5V 5V 5V5VV R 11KR 5680R R 64K 7R 7680RT 1B C W 311423L K 1R 3110R S K 3I C H O /P C 10220n FC 1410n FC 1510n F C 19220n FC 2047n FR 822KR 922KR 104K 7T 3B C W 31R 1110K C 2110n F30VC 1818p F X 14 M H zC 1610n FC 17100p F 123C N 1D C P O W E R 30V5VS D A 535V 04G N D 5S C L 56S K 4I 2C5V F i g .7 S L 1711 s t a n d a r d e v a l u a t i o n b o a r dSL1711Fig.8 89SL1711A G C 1I O U T2V E E A 3I F I N B4I F I N 5V C C A 6Q O U T7V E E C8V C C C 9P S C A L B10P S C A L11V E E B 12V C O A 13V C O B14V C O D I S 15V C C B 16/32O s c I M i x e rQ M i x e r I C 1S L 1711C 1100n F C 2100n FR 175RC 3100p F C 4100n F C 5100p F C 6100n F C 7100p F C 8100n F S W 1V C O D I S A B L ER 24K 75V5VT 1B C W 31R 3110RC 10220n FT 2B C W 31R 4110RC 11220n F5V S K 2I C H O U T S K 3Q C H O U TS K 1I F I N+C 947u F R 64K 7V R 11KR 5680RR 7680R1423L K 21423L K 1C 131n FT P 1A G C V O L T S123C N 1P O W E R5VS A W R E S O N A T O R1234S A W 1C 121n F C 14100p FC 15100p F 5V 5V 5VF i g .10. S L 1711 I & Q d o w n c o n v e r t e r w i t h S A W r e s o n a t o rSL1711Fig. 11Fig. 12 10SL1711 APPLICATION NOTESThese application notes should be read in conjunction with circuit diagrams contained in Fig. 7 and 10, and a recommended front end tuner solution contained in Fig. 13. These boards have been designed to demonstrate performance and to allow for initial evaluation of the SL1711.Varator Tuned OscillatorRefer to Fig. 7 circuit diagram and Figs. 11 and 12 PCB layout.This application uses a synthesised VCO with a tuning range of 460 MHz to 500 MHz. The surface mount inductor L1 is 12 nH. The VCO frequency is controlled by the SP5611 synthesiser which is programmed via an I2C bus. The RF input to the synthesiser is from the SL1711 prescaler outputs coupled via RF inductors L3 and L4.For functional checking the VCO can be tuned by physically shorting the base of transistor T3 to ground and then adjusting the +30 volt supply to tune the VCO. Under these conditions, due to the unlocked state of the LO, the board WILL NOT BE representative of locked gain and phase match or phase noise performance.In real applications such the VCO control voltage will be provided by the QPSK demodulator circuit, such as the VP305. This circuit provides a line voltage to align the reference LO in the 1711 in both frequency and phase to the centre of the modulation bandwidth, normally 402.75 or 479.5 MHz.As in all feedback loops the bandwidth of the varactor line must be optimised for the symbol rate of the received modulation.It is recommended for optimum performance that the VCO application is implemented symmetrically, in presented drive and impedance to the VCO ports, as demonstrated in the evaluation schematic and PCB.In the recommended application the varactor diodes are referenced to the VCO port DC bias voltages. This limits the minimum tuning voltage on the varactor line to 3V. If lower tuning voltage is required the tank can be AC coupled to the VCO ports by 390pF capacitor and a DC reference voltage for the varactor diodes applied by centre tapping the tank inductors. NB the varactor diodes require a minimum of 1V reverse bias for correct operation.In real applications the maximum tuning range required for the VCO will be determined by the required lock range of the tuner and the manufacturing tolerance of the tank, assuming the quadrature downconverter section will be alignment free. This tuning range will be typically be much smaller than the demonstration board, which will consequently improve the VCO phase noise performance.This application can be ported direct to real system implementations. Normal good RF practice must be applied to the layout implementation.Prescaler Outputs (varactor tuned VCO)The VCO frequency divided by 32 is available at the differential prescaler outputs, pins 10 and 11.These enable the VCO frequency to be synthesised by a PLL frequency synthesiser; on the demo board an SP5611 is used for this function however in a real application this function will be provided by the QPSK demodulator function contained in for example the VP305It is recommended that the prescaler outputs are loaded symmetrically to balance radiation effects.Saw Resonator OscillatorRefer to Fig. 10 circuit diagram and Figs 11 and 12 PCB layout.In the standard application the oscillator uses a varactor diode tuned tank circuit which allows fine tuning of the oscillator frequency via a voltage control line. This control voltage is usually derived from the QPSK/FEC decoder VP305/VP306Certain applications do not require this fine tune facility so a fixed frequency application using a SAW resonator has been developed. In this application the frequency of the oscillator is determined by the SAW resonator. The SAW is AC coupled into the VCO pins of the device pins 13 and 14 via 100pF coupling capacitors.The SAW resonator used in this application is a ;Murata Part No SAR479.45MB10X200Prescaler Outputs (SAWR tuned VCO)The VCO frequency divided by 32 is available at the differential prescaler outputs, pins 10 and 11. Normally these outputs will not be required since the derotation and fine tuning required will be processed by the QPSK demodulator. However these frequencies could be used if required for other system reference frequencies or clocks.If used it is recommended that the prescaler outputs are loaded symmetrically to balance radiation effects.VCO DisableThe on-chip oscillator can be disabled by connecting VCODIS, pin 15, to ground and enabled by connecting to Vcc via a 4k7 Ω pull up resistor.AGCThe AGC facility can be used to control the conversion gain of the SL1711.On the demonstration boards the conversion gain is adjusted by means of a potentiometer, which is set to 2.5V so giving a conversion gain of 38 dB. The voltage adjustment range for the AGC is approximately 1.5 to 3.5 V.It is important that the AGC voltage minimum does not give a conversion gain of greater than 44dBs otherwise the channel amplitude match may be degraded. In real applications the AGC can be either set at a fixed control voltage or controlled by means of the AGC control signal from the QPSK demodulator dependant on the overall dynamic range requirement of the tuner and it’s gain distribution.11SL1711I & Q baseband outputsThe SL1711 offers a greatly improved drive capability over the SL1710 and as such is much less sensitive to the load conditions.It is still important however to carefully balance the loads presented to the SL1711 to ensure no differential gain or phase degradation is introduced by the load circuits, which will also include effects due to track striplines etc.For demonstration purposes the output is unsuitable for connection via co-axial cables to standard test equipment, where such equipment is normally 50 Ω or highly capacitive.To overcome this problem the outputs of the SL1711 are therefore buffered through emitter followers which are optimised to drive 50 Ω loads without appreciable degradation in the SL1711 performance. These buffer stages are selectable so enabling the outputs to be loaded directly for interfacing direct with an ADC via a low capacitive link.In most applications the SL1711 will normally interface direct into the ADC converter such as the VP216, which will present a >1 kΩ low capacitive load, though it can interface with lower impedances if desired.The output is optimised for typical drive levels of 760mVp-p and the onset of clipping is typically > 1.5V.Care must be taken with system design to ensure that the I and Q baseband output signals never exceed 1.2V pk-pk. Any gross distortion in the output waveform caused by overdriving the output stages will compromise the system performance.Device performance characteristics can only be guaranteed if the device is operated below the onset of clipping.SL1711 Evaluation BoardThis board has been created to show the operation of the SL1711 I/Q downconverter.It does not attempt to simulate a real system, since in practice the 479.5MHz IF oscillator on the SL1711and the 60MHz clock on the subsequent ADC would be controlled via the baseband IQ demodulator chip such as the VP305 which follows the dual channel ADC. For simplicity, the VCO is locked using Mitel Semiconductor SP5611 synthesiser, con-trolled via an I2C bus.For full evaluation, 30V and 5V supplies are necessary. SuppliesThe board must be provided with the following supplies:A)5V for the SL1711 and SP5611 and 30V for the varactor line.The supply connector is a 3 pin 0.1" pitch pin header. The centre pin of the connector is GND.Outputs driven into hard clipping can exhibit amplitude decline. AGC loops should be designed to take account of this.I2C Bus connectionsThe board is provided with an RJ11 I2C bus connector which feeds directly to the SP5611 synthesiser.This connects to a standard 6-way connector cable which is supplied with the I2C/3-wire bus interface box.Input and Output connectionsThe board is provided with the following connectors:A)IF I/P SMA connector SK1 which is AC coupled to theRF input of the SL1711.B)I CH OUT SK2 and Q CH OUT (SK3) which provideeither a buffered or direct baseband output signal fromthe SL1711 (depending on which way the links LK1and LK2 are set). The output buffers should be usedwhen driving 50Ω test equipment or co-axial lines. Links and SwitchesThe board is provided with the following:VCO DISABLE switchThis disables the VCO of the SL1711. It does NOT power down the chip.AGC ADJUST potentiometerThe potentiometer sets the AGC input voltage of the SL1711 which controls the gain of the chip. TP1 is provided as a means of monitoring the AGC voltage.LK1 and LK2These are links which may be placed either vertically or horizontally to connect the outputs of the SL1711 either directly or via buffers to the SMA output connectors of the board.If the links are placed vertically 1-2 and 3- the outputs are connected directly.If the links are placed horizontally 1-3 and 2- the ouputs are connected via buffers.12SL1711Programming of SynthesisersA SP5611 synthesiser is used to set the frequency of the SL1711 VCO 480MHz. Since the SL1711 incorporates a divide by 32 the synthesised frequency that the SP5611 must be programmed to is 480/32=15MHz.Examplea)To program the SL1711 to 480MHz.I2C Byte Hex CodeByte 1 (address)C2Byte 2 (programmable divider 8 MSBs)00Byte 3 (programmable divider 8 LSBs)F0Byte 4 (control data)CEByte 5 (port data)00C2 is the address byte byte 1.0F00 is the programmable divider information bytes 2 and 3. CE is the control data information byte 4.**Note - the programmable divider information should be set to program 480MHz /32 = 15MHz since the SL1711 provides a divide by 32 prescaler output rather than the VCO carrier frequency.It is not possible to program the VCO to 479.5MHz when using a 7.8125kHz phase comparator frequency. The mini-mum step size is 7.8125kHz x 8 (RF prescaler inside SP5611) x 32 (SL1711 output prescaler) = 2MHz.If the reference divider is set to 1024 mode3.90625kHz phase comparator frequency, the minimum step size will be 1MHz.This may be achieved by programming the control byte to CC and modifying the programmable divider information for the new step size.SL1711 OperationThe SL1711 will mix an IF input with its own local oscillator. This is controlled as above via a SP5611 synthesiser.Normally the VCO will be set to the same frequency as the IF input, and the signal mixed directly down to baseband.Alternatively, a CW RF source may be fed into the input of the SL1711 which is deliberately offset from the VCO. By varying the offset from 0-20MHz and monitoring the I and Q channel baseband outputs, the flatness response of the chip/ output filter can be measured.The SL1711 oscillator may also be disabled by setting the ON-VCO-OFF switch to the OFF position.An AGC voltage adjust pot marked AGC ADJUST is provided, together with a test point.Measurement of Gain and Phase Match.a)Synthesise the required frequency 480MHz is used in the example above.b)Connect an RF signal generator to the input.c)Input a signal which should give an output of approx 0dBm(0.707V p-p), in combination with the appropriate AGC set-ting.d)Connect a vector voltmeter to the BUFFERED outputs when using 50Ω inputs. When using high impedance probes, the direct outputs may be used. Selection of outputs is via the on board U links.e)CALIBRATE the vector voltmeter and the leads to be used. The calibration should be performed at the chosen baseband frequency and level for maximum accuracy.f)Vary the RF input frequency either side of the LO and note the relative I and Q gain and phase reading.If you experience any difficulties with this board, or require further help, please contact Robert Marsh on 01793 518234 or Fred Herman on 01793 51842313SL1711Fig.13 Example digital front end architecture Note: All ICs shown in Fig. 13 are available from Mitel Semiconductor.1415SL1711ELECTRICAL CHARACTERISTICSTest conditions (unless otherwise stated)T amb = 0o C to 85oC ,* V ee = 0V, Vcc = 4.75 to 5.25 V, Fif = 479.5 MHz, IF bandwidth ± 22 MHz, output amplitude -11dBV These characteristics are guaranteed by either production test or design. They apply within the specified ambient temperature and supply voltage unless otherwise stated.Characteristic Pin Min TypMax Units ConditionsSupply voltage 6,9,16 4.755.25V Supply current 6,9,16109125mA IF input operating 4, 5350550MHz frequency (1)IF input impedance 4, 575ΩOver specified frequency operating range, see Fig. 6.Input return loss 4, 512dB Over specified frequency operating range, see Fig. 6.Input noise figure, DSB 4, 51719dB Maximum gain setting Variation in NF with gain 1dB/dB settingVCO operation range350550MHzCentre frequency and tuning range determined by application.VCO phase noise, SSB 96-85dBc/Hz Varactor tuned, determined @ 10kHz offset by application.VCO Vcc sensitivity 2E3ppm/V Free running VCO temperature 100ppm/°C Uncompensated stabilityPrescaler output swing 10, 11 1.2 1.6Vp-p Prescaler output duty 10, 11405060%cycleConversion gain for See Fig. 4AGC setting of;1.5V44dBTerminated voltage conversion gain from 50Ωsource to 1k Ω load2.5V 38dB 3.5V28dB AGC input current 1100µA All AGC settings I Q gain match ±0.3±1dB See Note 3.I Q gain match ±0.5±1dB See Note 4.I Q phase match±1.5±3deg See Note 4.I & Q channel in band ripple ±0.3±1dB see Note 3.I & Q channel in band ripple ±0.5±1dB See Note 4.I Q crosstalk-29-20dBSee Note 4 and Note 2 for derivation of cross modulation16SL1711ELECTRICAL CHARACTERISTICS (continued)Test conditions (unless otherwise stated)T amb = 0o C to 85oC,* V ee = 0V, Vcc = 4.75 to 5.25 V, Fif = 479.5 MHz, IF bandwidth +- 22 MHzThese characteristics are guaranteed by either production test or design. They apply within the specified ambient temperature and supply voltage unless otherwise stated.Characteristic Pin MinTyp Max Units ConditionsI & Q baseband output 2,7820ΩSee note (5), and Fig. 5.impedanceI & Q baseband output 2, 71.2 1.5Vp-pSee note(6), into 1K Ω load up to clipping level 22MHz basebandIP32T , output referred+3+9dBV2 input carriers at -39 dBV within IF bandwidth of ±22MHz AGC set to give composite output of -11 dBV, IM3 tone within baseband bandwidthIM32T output referred-40dBc2 input carriers within IFbandwidth of ±22MHz, AGC set to give composite output of -11 dBV, IM3 tone withinbaseband bandwidthAll prescaler and other -30dBc0.1 - 100MHz, referred to output spurs in I & Q baseband amplitude of - 11 dBV.output.Power supply rejection20dBcAttenuation Vcc to I & Q outputs,over 0-500kHzNotes:1.Performance not guaranteed over full specified IF input operating range2.I Q crosstalk is determined from the gain and phase match by the following formula Crosstalk = 20* Log (tan(phase error + Atan (1+amplitude imbalance) -45°))3.Over specified gain dynamic, 1k Ω load up to 22MHz baseband4.Over specified gain dynamic range, 1k Ω load up to 30MHz baseband5.Baseband bandwidth 0.1 to 22MHz6.The device should not be operated beyond the point of output clipping. The quality and amplitude of the baseband output signals cannot be guaranteed once this level has been exceeded.7.* Operating temperature range for the SL1711B is 0°C to 70°C. This applies to applications featuring a double sided copper board. For other applications not using such a board, the maximum operating temperature may be reduced.8.The above device characteristics are guaranteed provided the output is maintained below the onset of clipping.SL1711ABSOLUTE MAXIMUM RATINGSAll voltages are reffered to Vee at 0VCharacteristics Min Max Units ConditionsSupply voltage, Vcc-0.37VIFFIN &IFINB input voltage 2.5Vp-pIFIN & IFINB input DC offset-0.3Vcc+0.3VIOUT & QOUT DC offset-0.3Vcc+0.3VAGC DC offset-0.3Vcc+0.3VVCO1 & 2 DC offset-0.3Vcc+0.3VVCODDIS DC offset-0.3Vcc+0.3VPSCAL & PSCALB DC offset-0.3Vcc+0.3Storage temperature-55125°CJunction temperature150°CPSOP16 package thermal TBA°C/Wresistance, chip to ambientPSOP16 package thermal TBA°C/Wresitance, chip to caseMP16 package thermal resistance81°C/Wchip to AmbientMP16 package thermal resistance28°C/Wchip to casePower consumption at 5.25V657mWESD protection2kV Mil std 883B method 3015 cat 1ADDITIONAL INFORMATION REGARDING THE PSOP PACKAGE.The following information should be noted when using the PSOP package fitted to the SL1711.(a) This package uses the standard SOIC 16 footprint.(b) There is no need to make a thermal connection between the package and the board. If such a connection is made usinga thermal adhesive this will enhance the long term reliability of the product by reducing the junction temperature.(c)The heatsink that is evident on the base of the package is solderable.(d)There is no direct electrical connection between any of the device pins and the metal heatsinkslug. However if theheatsink is to be electrically connected to the PCB these connections should be confined to the ground plane.17World Headquarters - CanadaTel: +1 (613) 592 2122Fax: +1 (613) 592 6909North America Asia/Pacific Europe, Middle East, Tel: +1 (770) 486 0194T el: +65 333 6193and Africa (EMEA) Fax: +1 (770) 631 8213Fax: +65 333 6192Tel: +44 (0) 1793 518528Fax: +44 (0) 1793 518581 Information relating to products and services furnished herein by Mitel Corporation or its subsidiaries (collectively “Mitel”) is believed to be reliable. However, Mitel assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Mitel or licensed from third parties by Mitel, whatsoever.Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Mitel, or non-Mitel furnished goods or services may infringe patents or other intellectual property rights owned by Mitel.This publication is issued to provide information only and (unless agreed by Mitel in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Mitel without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user’s responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Mitel’s conditions of sale which are available on request.M Mitel (design) and ST-BUS are registered trademarks of MITEL CorporationMitel Semiconductor is an ISO 9001 Registered CompanyCopyright 1999 MITEL CorporationAll Rights ReservedPrinted in CANADATECHNICAL DOCUMENTATION - NOT FOR RESALE。