EXCD1开发板使用手册

说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。

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。

本手册内容受版权保护，版权所有。

未经许可，不得以机械的、电子的或其它任何方式进行复制。

温馨提示1、产品使用前，务必请仔细阅读产品说明书。

2、对未准备安装的主板，应将其保存在防静电保护袋中。

3、在从包装袋中拿主板前，应将手先置于接地金属物体上一会儿，以释放身体及手中的静电4、在使用前，宜将主板置于稳固的平面上。

5、请保持主板的干燥，散热片的开口缝槽是用于通风，避免机箱内的部件过热。

请勿将此类开口掩盖或堵塞。

6、在将主板与电源连接前，请确认电源电压值。

7、请将电源线置于不会被践踏的地方，且不要在电源线上堆置任何物件。

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、为避免人体被电击或产品被损坏，在每次对整机、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。

10、请留意手册上提到的所有注意和警告事项。

11、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。

12、设备在使用过程中出现异常情况，请找专业人员处理。

13、请不要将本设备置于或保存在环境温度高于70℃上，否则会对设备造成伤害。

目录目录 (1)1.产品简介 (1)1.1概述11.2产品特点 (2)1.3产品指标 (2)2.细参数说明 (4)2.1COMe外形尺寸 (4)2.2COMe连接器接口定义 (5)1.产品简介1.1概述GCE-2001-01基于飞腾D2000-8处理器的COMe模块，模块按照PICMG COMExpress 规范设计，符合COMExpress Type6Rev2.0接口类型定义，尺寸规格为Basic规格。

开发板用户手册
开发板用户手册是一本详细介绍开发板使用方法和功能的手册。

它通常由开发板的制造商提供，用于帮助用户快速上手并了解开发板的各项功能和特性。

开发板用户手册通常包括以下内容：
1. 开发板概述：介绍开发板的基本信息，如型号、尺寸、主要组件等。

2. 开发板硬件说明：详细描述开发板的硬件组成，包括处理器、存储器、接口、扩展槽等。

3. 开发环境配置：指导用户如何正确配置开发环境，包括安装和配置开发工具、驱动程序等。

4. 开发板连接与电源配置：介绍如何正确连接开发板和其他设备，并给出电源配置建议。

5. 开发板操作指南：详细说明开发板的各项操作方法，如开机、关机、重启、调试等。

6. 开发板接口与扩展说明：介绍开发板的各种接口和扩展槽，以及如何通过这些接口和扩展槽扩展开发板功能。

7. 开发板软件开发指南：提供软件开发的相关指导，包括编程语言、开发工具、示例代码等。

8. 常见问题解答：列出一些用户常见的问题，并提供相应的解决方法。

开发板用户手册是开发板的重要参考资料，通过仔细阅读用户手册，用户可以更好地了解和使用开发板，实现自己的开发目标。

Technical Manual for the Heat Detector HD1 – Exd IICPlease note that every care has been taken to ensure the accuracy of our technical manual. We do not, however, accept responsibility for damage, loss or expense resulting from any error or omission. We reserve the right to make alterations in line with technical advances and industry standards.1.0 INTRODUCTIONThe HD1 heat Detector has been designed for use in flammable atmospheres and harsh environmental conditions. The marine grade alloy Exd version is suitable for use offshore or onshore, where light weight combined with corrosion resistance and strength is required.2.0 INSTALLATIONThe Heat Detector is mounted via 4 X Ø9mm fixing holes in feet on the base of the unit.The fixing holes have been designed to accept an M8 caphead screw or bolt.MEDC recommend the use of stainless steel fasteners.The Heat Detector will operate in any attitude2.1 Removing the CoverUnscrew the 4 x M6 cover fixing screws and lift the cover clear of the enclosure.See 2.2 Cable Termination.After cable termination has been completed the cover can be replaced and secured to the enclosure.2.2 Cable TerminationCable termination should be in accordance with specifications applying to the application. MEDC recommend that all cables and cores should be fully identified.Ensure that only the correct certified glands are used and that the assembly is shrouded and correctly earthed. All cable glands should be of an equivalent IP rating to that of the Heat Detector.In order to maintain the IP rating, the glands should be sealed to the Heat Detector using a sealing washer or sealing compound.The internal earth terminal must be used for the equipment grounding connection and the external terminal is for a supplementary bonding connection where local codes or authorities permit or require such connection.2.3 GeneralWhen installing and operating explosion-proof electrical equipment, the relevant national regulations for installation and operation (e.g. EN60079-14 and IEE Edition Wiring Regulations) must be observed. Ensure that all nuts, bolts and fixings are secure.Ensure that only the correct certified stopping plugs are used to blank off unused gland entry points. We recommend the use of ‘HYLOMAR PL32 COMPOUND’ on the threads of the stopping plugs in order to maintain the IP or NEMA rating of the unit.3.0 OPERATIONThe Heat Detector consists of a sealed element containing a single normally open (N.O.) thermal switch which operates at a fixed temperature. The sensor element is fully sealed and no attempt must be made to modify this in any way. Adjustment of the temperature setting is not possible.4.0 MAINTENANCEDuring the working life of the Heat Detector it should require little or no maintenance. However, if abnormal or unusual environ-mental conditions occur due to plant damage or accident etc., then visual inspection is recommended.If a fault should occur, then the unit can be repaired by MEDC.UNDER NO CIRCUMSTANCES SHOULD ANY ATTEMPT BE MADE TO EITHER UNSCREW THE HEAT DETECTOR ELEMENT FROM THE ENCLOSURE OR GAIN ACCESS TO THE INSIDE OF THE HEAT DETECTOR ELEMENT. EITHER OF THESE ACTIONS WILL RESULT IN THE ASSEMBLY BECOMING UNSAFE FOR USE IN A POTENTIALLY EXPLOSIVE ATMOSPHERE.If you have acquired a significant quantity of Heat Detectors, then it is recommended that spares are also made available, (please discuss your requirements with MEDC’s Technical Sales Engineers).5.0 CERTIFICATIONCertified to EN60079-0:2006, EN60079-1:2004, EN62141-0:2006, EN61241-1:2004Exd IIC tD A21 IP6X T85°C (Tamb = -20°C to +55°C).ATEX Certificate Number: Baseefa 08ATEX0320The ATEX certificate and the product label carry the ATEX group and category marking: II 2GDWhere:signifies compliance with ATEX signifies suitability for use in surface industries2 signifies suitability for use in a zone 1 areaG signifies suitability for use in the presence of gasesD signifies suitability for use in the presence of dustA21 signifies suitability for use in the presence of dust in a zone 21 areaThe product label also carries the following mark:This signifies unit compliance to the relevant European directives, in this case 2014/34/EU , along with the number of the notified body issuing the EC type examination certificate.6.0 FUNCTIONAL SAFETYIntroductionThe HD1 Heat Detector has been designed for use in flammable atmospheres and harsh environmental Conditions. The marine grade alloy (Exd version) or Glass Reinforced Polyester (Exem and Exia versions) are suitable for use offshore or onshore, where light weight combined with corrosion resistance and strength is required.The safety function of the Heat Detector is to detect when a predefined temperature is reached.Under No fault (Normal) operating conditions the Heat Detector contacts are normally openUnder fault conditions the failure mode of the Heat Detector is a failure to activate when a predefined temperature is reached. For the failure rate associated with this failure mode please refer to the table below. Assessment of Functional SafetyThe HD1 Heat Detector is intended for use in a safety system conforming to the requirements of IEC61508 Sira Test & certification has conducted a failure Modes Effect and Diagnostic Analysis (FMEDA) of the HD1 Heat Detector against the requirements of IEC61508-2 using a proof test interval of 8760 hours.The HD1 Heat Detector is classed as a Type A device.Conditions of Safe Use1.The user shall comply with the requirements given in the manufacturer’s user documentation (SafetyManual) in regard to all relevant functional safety aspects such as application of use, installation,operation, maintenance, proof tests, maximum ratings, environmental conditions, repair, etc;2.Selection of this equipment for use in safety functions and the installation, configuration, overallvalidation, maintenance and repair shall only be carried out by competent personnel, observing all the manufacturer’s conditions and recommendations in the user documentation.3.All information associated with any field failures of this product should be collected under adependability management process (e.g., IEC 60300-3-2) and reported to the manufacturer.4.The unit should be tested at regular intervals to identify any malfunctions; in accordance with this safetymanual.MEDC Ltd, Colliery Road, Pinxton, Nottingham NG16 6JF, UK.Tel: +44 (0)1773 864100 Fax: +44 (0)1773 582800Sales Enq. Fax: +44 (0)1773 582830 Sales Orders Fax: +44 (0)1773 582832 MEDC Stock No. E-mail:**************Web: TM228-ISS C。

开发板用户手册（原创实用版）目录1.开发板简介2.开发板硬件配置3.软件开发环境搭建4.编程实例与实践5.常见问题与解决方案6.技术支持与资源正文一、开发板简介开发板是一种集成了微处理器、存储器、输入输出接口等多种功能于一体的电子设备，主要用于软件开发和硬件调试。

本手册所介绍的开发板具有强大的功能和易用的接口，是开发者和制造商理想的选择。

二、开发板硬件配置1.微处理器：开发板搭载了高性能的微处理器，支持多任务处理和硬件加速。

2.存储器：开发板内置了大容量的存储器，可用于存储程序代码和数据。

3.输入输出接口：开发板提供了多种输入输出接口，如串口、并口、USB 等，方便连接各种外设。

4.通信接口：开发板支持多种通信协议，如 TCP/IP、UDP 等，便于实现网络通信功能。

5.扩展接口：开发板提供了可扩展接口，用户可以根据需要添加外部设备。

三、软件开发环境搭建1.安装开发板驱动：在使用开发板之前，需要先安装相应的驱动程序，以确保开发板与计算机之间的通信顺畅。

2.选择编程语言：开发板支持多种编程语言，如 C、C++、Python 等，用户可以根据自己的需求选择合适的编程语言。

3.配置编译器：根据所选编程语言，配置相应的编译器，确保编译器能够正确识别开发板的硬件接口。

4.下载程序：将编写好的程序通过串口或者其他通信接口下载到开发板上，开始实际运行。

四、编程实例与实践本部分将通过具体的编程实例，介绍如何使用开发板实现各种功能，如 LED 闪烁、按键控制、通信协议等。

五、常见问题与解决方案在使用开发板的过程中，可能会遇到一些常见的问题，如无法下载程序、通信异常等。

本部分将针对这些问题提供相应的解决方案。

六、技术支持与资源1.技术支持：开发板厂商提供免费的技术支持服务，用户可以在官方网站上查询联系方式。

2.学习资源：厂商提供了丰富的学习资源，如用户手册、编程指南、案例教程等，帮助用户快速掌握开发板的使用技巧。

通过以上介绍，相信您已经对开发板有了全面的了解。

开发板用户手册摘要：一、概述二、产品特点三、硬件配置四、软件环境五、使用教程六、常见问题及解决方案七、售后服务八、注意事项正文：一、概述开发板用户手册旨在为您提供一款强大且实用的开发工具。

本手册包含了开发板的所有相关信息，包括产品特点、硬件配置、软件环境、使用教程等，以帮助您更好地了解和使用这款开发板。

请您仔细阅读本手册，以便更好地发挥开发板的功能。

二、产品特点1.高性能：开发板采用高性能的处理器，可满足各种复杂项目的需求。

2.丰富的接口：具备各类常用接口，如USB、HDMI、以太网等，方便与其他设备连接。

3.稳定性：经过严格测试，确保在各种环境下保持稳定运行。

4.开源：提供完整的源代码，便于用户进行二次开发和定制。

三、硬件配置1.处理器：采用某知名品牌高性能处理器。

2.内存：标配适量内存，可根据需求进行扩展。

3.存储：提供内置存储空间，支持外接存储设备。

4.显示屏：配备高清显示屏，支持多种显示接口。

四、软件环境1.操作系统：预装某主流操作系统，支持多种编程语言。

2.开发工具：提供配套的开发工具，如IDE、编译器等。

3.应用软件：内置常用应用软件，如办公、娱乐等。

五、使用教程1.安装操作系统：根据说明书安装操作系统及相关驱动。

2.配置网络：连接网络，确保开发板正常上网。

3.安装开发工具：根据说明书安装开发工具及相关插件。

4.编写代码：使用开发工具编写代码。

5.编译调试：编译代码并调试，确保程序正常运行。

6.烧录：将编译好的程序烧录至开发板。

六、常见问题及解决方案1.无法连接网络：检查网络线缆、路由器设置等，确保网络正常。

2.程序无法运行：检查代码编写是否正确，调试程序。

3.烧录失败：检查烧录器及连接线，重新烧录。

七、售后服务1.保修期限：按照产品保修政策提供售后服务。

2.技术支持：提供在线技术支持，解答用户在使用过程中遇到的问题。

3.配件更换：在保修期内，如需更换配件，免费提供相应配件。

八、注意事项1.请勿将开发板置于潮湿、高温、灰尘密集的环境中。

Heat detector HD1Heat detector HD12 HD1 Heat Detector TM159 J October 2024 DISCLAIMER OF WARRANTIES AND LIMITATION OF LIABILITYThe information, recommendations, descriptions and safety notations in this document are based on Eaton Corporation’s (“Eaton”) experience and judgment and may not cover all contingencies. If further information is required, an Eaton sales office should be consulted. Sale of the product shown in this literature is subject to the terms and conditions outlined in appropriate Eaton selling policies or other contractual agreement between Eaton and the purchaser.THERE ARE NO UNDERSTANDINGS, AGREEMENTS, WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY, OTHER THAN THOSE SPECIFICALLY SET OUT IN ANY EXISTING CONTRACT BETWEEN THE PARTIES. ANY SUCH CONTRACT STATES THE ENTIREOBLIGATION OF EATON. THE CONTENTS OF THIS DOCUMENT SHALL NOT BECOME PART OF OR MODIFY ANY CONTRACT BETWEEN THE PARTIES.In no event will Eaton be responsible to the purchaser or user in contract, in tort (includingnegligence), strict liability or other-wise for any special, indirect, incidental or consequential damage or loss whatsoever, including but not limited to damage or loss of use of equipment, plant or power system, cost of capital, loss of power, additional expenses in the use of existing power facilities, or claims against the purchaser or user by its customers resulting from the use of the information, recommendations and descriptions contained herein. The information contained in this manual is subject to change without notice.Heat detector HD13 HD1 Heat Detector TM159 J October 2024 ContentsIntroduction............................................. 4 General safety messages and warnings........ 4 Installation.............................................. 4 General.................................................... 4 Removing/Replacing the cover............... 4 Operation......................................................... 5 Maintenance.................................................... 5 Certification / approvals................................... 6 Exd IIB Version.......................................... 6 Exd IIC Version.. (6)Ex em Version (6)Ex ia Version............................................. Special conditions of use………………………6 7Heat detector HD14 HD1 Heat Detector TM159 J October 2024 1.0 INTRODUCTIONThe HD1 heat detector has been designed for use in flammable atmospheres and harsh environmental conditions. The marine grade alloy (Exd) or Glass Reinforced Polyester (Exem and Exia versions) cover and enclosure are suitable for use offshore or onshore, where light weight combined with corrosion resistance and strength is required.2.0 GENERAL SAFETY MESSAGES AND WARNINGSAll instructions and safety messages in this manual must be followed to allow safe installation of the device. The device must only be installed and maintained by correctly trained site personnel/installers.i. To reduce the risk of ignition of hazardousatmospheres and shock, do not apply power to the device until installation has been completed and the device is fully sealed and secured. ii. To reduce the risk of ignition of hazardousatmospheres and shock, keep device tightly closed when the circuit is energised.iii. Before removing the cover for installation ormaintenance, ensure that the power to the device is isolated.iv. Following installation, test the device to ensurecorrect operation.v. Following installation ensure a copy of this manualis made available to all operating personnel. vi. When installing the device, requirements forselection, installation and operation should be referred to e.g. IEE Wiring Regulations and the National Electrical Code’ in North America.Additional national and/or local requirements may also apply.vii. Cable termination should be in accordance withspecification applying to the required application. MEDC recommends that all cables and cores should be correctly identified. Please refer to the wiring diagram in this manual (or separate diagram provided with the unit).viii. Ensure that only the correct listed or certified cableglands are used and that the assembly is shrouded and correctly earthed.ix. Ensure that only the correct listed or certifiedstopping plugs are used to blank off unused gland entry points and that the NEMA/IP rating of the unit is maintained.x. MEDC recommend the use of a sealing compoundsuch as HYLOMAR PL32 on the threads of all glands and stopping plugs in order to maintain the IP rating of the unit.xi. For the Exem and Exia versions, a suitable sealingwasher must be fitted to all glands and stopping plugs fitted into the enclosure.xii. The internal earth terminal, where fitted,must be used for the equipmentgrounding and the external terminal, if available, is for a supplementary bonding connection where local codes or authorities permit or require such a connection.xiii. When installing the device, MEDCrecommends the use of stainless steel fasteners. Ensure that all nuts, bolts and fixings are secure.xiv. Note: The purchaser should make themanufacturer aware of any externaleffects or aggressive substances that the equipment may be exposed to.xv. Potential electrostatic charging hazard,protect from direct airflow from exhaust ducts and the like which may cause charge transfer. If the unit requires cleaning, only clean the exterior with a damp cloth to avoid electrostatic charge build up. Ensure the equipment is correctly earthed.xvi. Installation shall be in accordance withIEC60079-14.3.0 INSTALLATIONGeneralThe heat detector is mounted via 4 off Ø9mm (Exd version) or 4 off Ø7mm (Exem and Exia versions) fixing holes in feet on the base of the unit.The fixing holes have been designed to accept M8(Exd version) or M6 (Exe/Exi versions) screws or bolts.The heat detector has been designed to operate in any attitude.Removing/replacing the Cove rExd version: Unscrew and remove the 4 off M6 screws (5mm A/F hexagon key required) and lift the cover clear of the base. The screws are not captive and should be kept in a safe place during cable termination.Exem/Exi versions: Unscrew the 4 off M5 screws (4mm A/F hexagon key required) and lift the cover clear of the base. The cover screws are captive and will be retained in the cover.Once cable termination has been completed, the cover can be replaced and secured to the enclosure. Ensure that any cover seal is correctly seated.On Exd versions ensure that the gap between the cover and enclosure is 0.15mm max. .Heat detector HD15 HD1 Heat Detector TM159 J October 2024 4.0 OPERATIONThe heat detector consists of a sealed element containing a single normally open (N.O.) thermal switch which operates at a fixed temperature. The operatingtemperature is stated on the identification label on the outside of the unit.The sensor element is fully sealed, and no attempt must be made to modify this in any way. Adjustment of the temperature setting is not possible.General arrangement (exd version)General arrangement (exe/exi versions)5.0 MAINTENANCEDuring the working life of the heat detector it should require little or no maintenance. However, if abnormal or unusual environmental conditions occur due toplant damage or accident etc., then visual inspection is recommended.If a fault should occur, then the unit can be repaired by MEDC.Under no circumstances should any attempt be made to either unscrew the heat detector element from the enclosure or gain access to the inside of the heat detector element.Either of these actions will result in the assembly becoming unsafe for use in potentially explosive atmospheres.If you have acquired a significant quantity of heat detectors, then it is recommended that spares are also made available. Please discuss your requirements with MEDC’s technical sales engineers.If the unit requires cleaning, only clean exterior with a damp cloth to avoid electro-static charge build up.Heat detector HD16 HD1 Heat Detector TM159 J October 2024 6.0 CERTIFICATION / APPROVALSExd IIB version: Certified toATEX: EN60079-0 , EN60079-1 , EN60079-31, IEC60079-33IECEx: IEC60079-0 , IEC60079-1 , IEC60079-31, IEC60079-33Ex d unit(ATEX certification No. Baseefa 03ATEX0447) (IEC certification No. IECEx SGS 24.0013X.)Ex db sb IIB+H2 T6 (Tamb -20°C to +55°C) Ex tb IIIC T85°C Db IP6x OrEx db sb IIB+H2 T3 (Tamb -20°C to +125°C)* Ex tb IIIC T200°C Db IP6x*Please refer to certification label for temperature ratingExd IIC version: Certified toATEX: EN 60079-0, EN 60079-1, EN60079-31, IEC60079-33IECEx: IEC60079-0 , IEC60079-1 , IEC60079-31, IEC60079-33Ex d unit(ATEX certification No.Baseefa08ATEX0320) (IEC certification No. IECEx SGS 24.0012X.)Ex db sb IIC T6 Gb (Tamb -20°C to +55°C) Ex tb IIIC T85°C Db IP6X OrEx db sb IIC T4 Gb (Tamb -20°C to +90°C) Ex tb IIIC T135°C Db IP6XFor Type HD1 Addressable Heat Detector Units which do contain an addressable module the marking remains as:Ex db sb IIC T6 Gb (Tamb -20°C to +55°C) Ex tb IIIC T85°C Db IP6XThe Exd ATEX certificate and product label carry the ATEX group and category marking:II 2 GD Where:Signifies compliance with ATEXII Signifies suitability for use in surface industries 2 Signifies suitability for use in a zone 1 areaG Signifies suitability for use in the presence of gases D Signifies suitability for use in the presence of dustThe IECEx certificate and product label carry the IECEx equipment protection level markingGb and Db where Gb signifies suitability for use in a Zone 1 surface industries area in the presence of gas.Db suitability for use in a Zone 21 surface industries area in the presence of dust.Exe version: Certified toATEX: EN60079-0 , EN60079-7, IEC60079-33 IECEx: IEC60079-0, IEC60079-7, IEC60079-33(ATEX certification No. Baseefa03ATEX0428) (IEC certification No. IECEx SGS 24.0035X) Ex eb sb IIC T6 Gb (-20°C to +55°C) (With resistors fitted)Ex eb mb sb IIC T4 Gb (-20°C to +55°C)The ATEX certificate and product label carry the ATEX group and category marking:II 2 G Where:Signifies compliance with ATEXII Signifies suitability for use in surface industries 2 Signifies suitability for use in a zone 1 areaG Signifies suitability for use in the presence of gasesThe IECEx certificate and product label carry the IECEx equipment protection level marking GbWhere Gb signifies suitability for use in a Zone 1 surface industries area in the presence of gas.Ex ia version:ATEX: Certified to EN60079-0 & EN60079-11 IECEx: Certified to IEC60079-0 & IEC60079-11(ATEX certification No. Baseefa03ATEX0427) (IEC certification No. IECEx BAS 13.0010)Ex ia IIC T6 Ga (-55°C to +55°C) - HD1I version Ex ia IIC T4 Ga (-55°C to +55°C) - HD1IR versionThe Ex ia ATEX certificate and product label carry the ATEX group and category marking:II 1 G Where:Signifies compliance with ATEXII Signifies suitability for use in surface industries 1 Signifies suitability for use in a zone 0 areaG Signifies suitability for use in the presence of gasesThe IECEx certificate and product label carry the IECEx equipment protection level marking Ga.Where Ga signifies suitability for use in a Zone 0 surface industries area in the presence of gas.Heat detector HD17 HD1 Heat Detector TM159 J October 2024 7.0 SPECIAL CONDITIONS OF USEExd IIB/IIC version:1. Cover screws of minimum grade A4-80stainless steel shall be used. 2. Warning – Potential electrostaticcharging hazard – See instructions.Exe version:For HD1R units only:1. The electrical supply to the encapsulatedResistor is limited to a maximum of 1.2W 2. Units fitted with the encapsulated resistorshall be protected by a fuse rated for a prospective short circuit current of at least 1500A .Heat detector HD18HD1 Heat Detector TM159 J October 2024 EatonEMEA Headquarters Route de la Longeraie 7 1110 Morges, Switzerland Eaton.euEatonUnit B, Sutton Parkway Oddicroft Lane Sutton in Ashfield United Kingdom NG17 5FBT: +44 (0) 1623 444 400 /hac*******************© 2024 EatonAll Rights Reserved Printed in September Publication No. TM159/J Changes to the products, to the information contained in this document, and to prices are reserved; so are errors and omissions. Only order confirmations and technical documentation by Eaton is binding. Photos and pictures also do not warrant a specific layout or functionality. Their use in whatever form is subject to prior approval by Eaton. The same applies to Trademarks (especially Eaton, Moeller, and Cutler-Hammer). The Terms and Conditions of Eaton apply, as referenced on Eaton Internet pages and Eaton order confirmations.Eaton is a registered trademark.All trademarks are property of their respective owners.。

E-ink电子纸开发板使用说明手册Edition 1.1.0大连佳显电子有限公司摘要大连佳显电子有限公司2013年推出的2.1寸、3.5寸、4.3寸、6寸和8寸的E-ink电子纸开发板是让用户简单上手容易使用电子纸为目的而研制的，对接触过二代计算器语言和C语言环境开发的工程师，可以很快了解并应用，此外针对C语言的系统函数它可以非常灵活地在该产品上进行控制和操作。

Kiel软件是在很多系统底层编程时需要用到的流行软件，所以我们建议使用该软件进行编译，整个编译和下载过程借助Debugger 和 Kiel3 的结合完成。

同时大连佳显电子有限公司也提供相关的程序例程供客户参考，用户可以向与你联系的销售工程师索取。

针对不同尺寸的电子纸，我们有不同的Demo kit可以提供，使用Arm单片机存储可以容纳多张图片交替刷新，我们以2.1寸的Demo开发板为例来说明此类Demo开发板的使用方法，其它的Demo开发板的使用都与此类似。

目录:产品摘要 (02)结构部分 (04)设置程序 (07)编译过程 (12)下载 (13)调试程序 (14)生成一个图片 (14)结构部分：如果仅仅是想显示内容，只要将Demo开发板和电子纸在未上电情况下连接，之后将Demo开发板的USB供电插入PC的USB 总线进行供电就可使用了。

每一个Demo kit上留有一枚工作电源指示灯，在上电工作情况下它会保持绿灯常亮，断电后瞬间熄灭，而且在供电源区域内可见一个跳线，用户可以选择使用电源适配器或USB供电。

Demo kit上的USB连接线不参与编译后下载，只能供电。

下载接口部分是采用标准JTAG接口，此处需要与Debugger的JTAG 连接，再用Debugger的另一端用USB连接计算器的COM口。

JTAG接的连接方向如图所示，将凹槽对像连接线的凸边：就下载和调试阶段而言，您需要具备一台安装了Keils3及以上版本（已注册）的计算机，除此之外还需要连接Debugger和Demo开发板，最后需要Demo kit 和E-ink电子纸的正确连接。

开发板用户手册（实用版）目录1.开发板简介2.开发板硬件3.软件开发环境4.使用教程5.常见问题与解答6.技术支持与资源正文【开发板简介】开发板是一种集成了处理器、存储器、输入/输出接口等多种功能于一体的计算机硬件平台，它可以用于开发和测试各种应用程序和系统。

本手册主要介绍一款功能强大、易于使用的开发板，帮助用户快速掌握开发板的使用方法，从而实现各种创新应用。

【开发板硬件】本开发板采用了高性能的处理器，具有强大的数据处理能力。

内存方面，配备了足够的存储空间，可满足各种复杂应用程序的需求。

此外，开发板上还提供了丰富的输入/输出接口，便于用户连接各种外设。

【软件开发环境】为了方便用户进行软件开发，我们提供了一套完整的软件开发环境，包括编译器、调试器、仿真器等工具。

用户可以在这个环境中轻松地编写、调试和运行程序。

【使用教程】本手册提供了详细的使用教程，包括如何安装软件开发环境、如何编写和运行程序等内容。

通过学习这些教程，用户可以快速上手，掌握开发板的使用方法。

【常见问题与解答】在使用开发板的过程中，可能会遇到一些问题。

本手册收集了一些常见问题，并提供了相应的解答，以帮助用户解决问题。

【技术支持与资源】为了更好地服务用户，我们提供了全面的技术支持，包括在线帮助、电话支持等。

此外，我们还提供了丰富的学习资源，如教程、案例、开发工具等，以帮助用户提高开发技能，实现更多的创新应用。

总之，本开发板为用户提供了一个强大的硬件平台和便捷的软件开发环境，用户可以充分利用这些资源，实现自己的创意和需求。

Manual del operador Detector de humedad Model MO100IntroducciónFelicitaciones por su compra del detector de humead modelo MO100 de Extech. Las lecturas se toman insertando las agujas en el material que se quiere medir. El uso cuidadoso de este medidor le proveerá muchos años de servicio confiable.Precauciones•Este dispositivo no es un juguete y no debe llegar a manos de los niños. Contiene objetos peligrosos así como partes pequeñas que losniños podrían tragar. En caso de que algún niño trague cualquier parte, por favor llame al médico inmediatamente•No deje las baterías y material de empaque sin atención; ya que pueden ser peligrosos para los niños si los usan como juguetes •En caso de que no use el dispositivo durante largo tiempo, retire las baterías para prevenir derrames•Las baterías vencidas o dañadas pueden causar quemaduras al contacto con la piel. Por lo tanto, use siempre guantes apropiados para tales casos•Revise que las baterías no estén en corto. No deseche las baterías en el fuego.EspecificacionesIndicador Dos pantallas LCD Humedad deoperación90% Humedad relativa (max.)Escala del indicador de humedad 0 a 100 Fuente detensión2 baterías AAAEscala de temperatura 0°C a 50°C (32°F a122°F )Dimensiones 192 x 30 x 45 mm (7.6 x 0.8 x1.8")°C/ °F Resolución 0.2° Peso108g (3.8oz)D escripción1. Agujas2. Sensor de Temperatura3. Cabaza Giratorla Boton4. Indicador5. CAL Adjusta6. Off/Test/Cal7. Asimiento8. °C/ °F9. Indicador de Temperatura10. BatteriasUnidades de temperaturaEste medidor indica la temperatura ambiente. Las lecturas pueden mostrarse en °F o °C. Use el selector ubicado atrás del medidor para seleccionar la unidad de medida apropiada..Reemplazo de la bateríaUsted, como usuario final, está legalmente obligado (Reglamentode baterías) a regresar todas las baterías y acumuladores usados;¡el desecho en el desperdicio o basura de la casa está prohibido!Usted puede entregar las baterías o acumuladores usados,gratuitamente, en los puntos de recolección de nuestrassucursales en su comunidad o donde sea que se venden lasbaterías o acumuladores.DesechoCumpla las estipulaciones legales vigentes respecto al desechodel dispositivo al final de su vida útil.Antes de usar, calibre el instrumento usando los siguientes pasos.1. Resbale el interruptor Off/Test/Cal a la posición CAL.2. Gire la perilla de ajuste CAL hasta que la pantalla indique 100. (Estese hace para fijar un punto de referencia.)Nota: (La perilla de ajuste CAL está embutida para prevenircambios accidentales. Use un objeto con el extremoahusado para hacer ajustes.)3. Deslice el interruptor Off/Test/Cal a la posición TEST4. El medidor está listo para tomar lecturasToma de lecturasSe usa el siguiente procedimiento para tomar lecturas relativas o comparativas del contenido de humedad en madera, tablaroca y otros materiales. Laslecturas obtenidas son indicaciones relativas del nivel de humedad NO del %de contenido de humedad.1. Resbale el interruptor Off/Test/Cal a la posición Test.2. Para establecer una referencia para el material a prueba inserte lasagujas del sensor en un área seca (o aceptable) del material. Lainserción deberá ser lo más profundo posible. Note la lectura "seca"3. Entonces inserte las agujas del sensor en un área húmeda delmaterial a prueba. La inserción deberá ser lo más profundo posible.Note la lectura "húmeda".4. Use estas lecturas sea a húmeda como puntos de referencia como puntode comparación para las lecturas siguientes.Las lecturas seca y húmeda de algunos materiales comunesTablaroca MaderaIndicación Valor de humedad Indicación Valor de humedad 0-5 Seco 0 a 8 Seco6-14 Húmedo 9-22 Húmedo>14 Mojado >22 MojadoConversión de lecturas relativas a % de contenido de humedad Las lecturas obtenidas son indicaciones relativas del nivel de humedad NO del% de contenido de humedad. Por favor consulte la tabla para una conversión aproximada de lecturas relativas al % de contenido de humedad.Reemplazo de agujasPara su conveniencia, el medidor usa agujas roscadas. Para remplazar una aguja, simplemente desenrosque del medidor y tenga cuidado de no apretar demasiado la aguja nueva.Nota de seguridad:Para su seguridad, el MO100 tiene una cabezagiratoria con botón para soltar el candado. Por favor recuerde girar lacabeza de manera que las agujas queden ocultas dentro delcompartimiento.Copyright © 2012 Extech Instruments Corporation (a FLIR company) Reservados todos los derechos, incluyendo el derecho de reproducción total o parcial en cualquiermedio.MO100-EU-SP-V3.4-2/12Escala de conversión para madera (Aprox)REL 2 4 8 16 22 30 38 44 62 68 72 76 78 83%MC 16 17 18 19 20 21 22 23 24 25 26 27 28 29。

目录第一章综述 (1)第二章系统模块 (2)第三章软件的介绍 (10)第四章USB 电缆的安装与使用 (15)第一章综述THSOPC-3型FPGA开发板是根据现代电子发展的方向，集EDA和SOPC系统开发为一体的综合性实验开发板，除了满足高校专、本科生和研究生的SOPC教学实验开发之外，也是电子设计和电子项目开发的理想工具。

一、实用范围：●自主创新应用开发；●单片机与FPGA联合开发；●IC设计硬件仿真；●科研项目硬件验证与开发；●高速高档自主知识产权电子产品开发；●毕业设计平台；●研究生课题开发；●电子设计竞赛培训；●现代DSP开发应用；●针对各类CPU IP核的片上系统开发；●DSP Biulder系统设计。

二、硬件配置：THSOPC-3型FPGA开发板基于Altera Cyclone II 器件的嵌入式系统开发提供了一个很好的硬件平台，它可以为开发人员提供以下资源：●支持+5V 电源适配器直接输入或者USB接口供电，5V、3.3V、1.2V混合电压源；●FPGACycloneII FPGA EP2C8，40万门，2个锁相环；●isp单片机AT89S8253。

isp单片机AT89S8253及开发编程工具，MCS51兼容，12KB isp可编程Flash ROM，2KB ispEEPROM，都是10万次烧写周期；2.7-5.5V工作电压；0-24MHz工作时钟；可编程看门狗；增强型SPI串口，9个中断源等。

此单片机可与FPGA联合开发，十分符合实现当今电子设计竞赛项目的功能与指标实现；●EPM3032 CPLD；● 4 Mbits 的EPCS4 配置芯片；●512KB高速SRAM；●20MHz 高精度时钟源（可倍频到300MHz）；● 4 个用户自定义按键；●8 个用户自定义开关；●8 个用户自定义LED；● 2 个七段码LED；●标准AS 编程接口和JTAG调试接口；●两个标准2.54mm扩展接口，供用户自由扩展；●RS-232 DB9串行接口；●PS/2键盘接口；●VGA接口；●4X4键盘；●液晶显示屏20字X4行；●USB-Blaster编程器，可对FPGA通过JTAG口编程、调试、测试；单片机编程ByterBlasreMV 编程器；●光盘：配套子程序库、资料、编程软件、实验指导书。

开发板用户手册摘要：1.开发板简介2.开发板硬件配置3.软件开发环境搭建4.编程实例与实践5.常见问题与解决方案6.技术支持与资源正文：【开发板简介】开发板是一种集成了处理器、存储器、输入输出接口等多种功能于一体的计算机硬件平台，用于进行软硬件开发和测试。

本手册所介绍的开发板，具有强大的性能、丰富的外设接口以及易于使用的开发环境，是进行嵌入式系统开发、物联网应用、人工智能等领域开发的理想选择。

【开发板硬件配置】本开发板硬件配置如下：1.处理器：采用高性能的ARM 处理器，主频可达XXX MHz。

2.存储器：配备XXX MB 的DDR 内存和XXX MB 的Flash 存储，支持最大XXX MB 的MicroSD 卡扩展。

3.显示接口：支持XXX 分辨率的LCD 显示屏。

4.通信接口：具备以太网、蓝牙、Wi-Fi、LoRa 等多种通信方式。

5.输入输出接口：提供按键、LED 指示灯、串口、I2C、SPI、GPIO 等多种外设接口。

6.电源接口：支持DCXXXV 输入电压。

【软件开发环境搭建】为了方便开发者进行软件开发，我们提供了以下工具和资源：1.开发板固件：提供稳定可靠的Linux 操作系统和Android 操作系统固件。

2.编程工具：支持Keil、IAR 等主流的嵌入式开发环境。

3.调试工具：提供在线调试工具，支持断点调试、单步执行等功能。

4.开发库：提供丰富的开发库，包括网络通信、图形界面、文件系统等。

5.技术文档：提供详细的开发板用户手册、硬件参考手册、接口协议等文档。

【编程实例与实践】本手册提供了以下编程实例，供开发者学习和参考：1.LED 闪烁实验2.按键输入实验3.串口通信实验4.网络通信实验5.图形界面设计实验【常见问题与解决方案】在开发过程中，可能会遇到一些常见问题，如下所示：1.问题：无法启动开发板解决方案：检查电源线是否接触良好，检查开发板上的电源指示灯是否亮起。

2.问题：无法连接串口解决方案：检查串口线是否接触良好，尝试使用其他串口工具重新连接。

Rev. 0.7 2/14Copyright © 2014 by Silicon LaboratoriesC8051F31xX EVELOPMENT IT SER S UIDE1. Kit ContentsThe C8051F31x Development Kit contains the following items:•C8051F310 Target Board•C8051Fxxx Development Kit Quick-Start Guide •AC to DC Power Adapter•USB Debug Adapter (USB to Debug Interface)•USB Cable •CD-ROM2. Hardware Setup Using a USB Debug AdapterThe target board is connected to a PC running the Silicon Laboratories IDE via the USB Debug Adapter as shown in Figure 1.1.Connect the USB Debug Adapter to the DEBUG connector on the target board with the 10-pin ribbon cable.2.Connect one end of the USB cable to the USB connector on the USB Debug Adapter.3.Connect the other end of the USB cable to a USB Port on the PC.4.Connect the ac/dc power adapter to power jack P1 on the target board.Notes:•Use the Reset button in the IDE to reset the target when connected using a USB Debug Adapter.•Remove power from the target board and the USB Debug Adapter before connecting or disconnecting the ribbon cable from the target board. Connecting or disconnecting the cable when the devices have power can damage the device and/or the USB Debug Adapter.Figure 1.Hardware Setup Using a USB Debug AdapterPWRP1.6C8051F31x3. Software SetupSimplicity Studio greatly reduces development time and complexity with Silicon Labs EFM32 and 8051 MCU products by providing a high-powered IDE, tools for hardware configuration, and links to helpful resources, all in one place.Once Simplicity Studio is installed, the application itself can be used to install additional software and documentation components to aid in the development and evaluation process.Figure2.Simplicity StudioThe following Simplicity Studio components are required for the C8051F310 Development Kit:⏹ 8051 Products Part Support ⏹ Simplicity Developer PlatformDownload and install Simplicity Studio from /8bit-software or /simplicity-studio .Once installed, run Simplicity Studio by selecting Start →Silicon Labs →Simplicity Studio →Simplicity Studio from the start menu or clicking the Simplicity Studio shortcut on the desktop. Follow the instructions to install the software and click Simplicity IDE to launch the IDE.The first time the project creation wizard runs, the Setup Environment wizard will guide the user through the process of configuring the build tools and SDK selection.In the Part Selection step of the wizard, select from the list of installed parts only the parts to use during development. Choosing parts and families in this step affects the displayed or filtered parts in the later device selection menus. Choose the C8051F31x family by checking the C8051F31x check box. Modify the part selection at any time by accessing the Part Management dialog from the Window →Preferences →Simplicity Studio →Part Management menu item.Simplicity Studio can detect if certain toolchains are not activated. If the Licensing Helper is displayed after completing the Setup Environment wizard, follow the instructions to activate the toolchain.C8051F31x3.1. Running BlinkyEach project has its own source files, target configuration, SDK configuration, and build configurations such as the Debug and Release build configurations. The IDE can be used to manage multiple projects in a collection called a workspace. Workspace settings are applied globally to all projects within the workspace. This can include settings such as key bindings, window preferences, and code style and formatting options. Project actions, such as build and debug are context sensitive. For example, the user must select a project in the Project Explorer view in order to build that project.To create a project based on the Blinky example:1. Click the Simplicity IDE tile from the Simplicity Studio home screen.2. Click the Create new project link from the welcome screen or go to File →New →Silicon Labs MCU Project .3. In the Kit drop-down, select C8051F310 Development Kit , in the Part drop-down, select C8051F310, and in the SDK drop-down, select the desired SDK. Click Next .4. Select Example and click Next .5. Under C8051F310 Development Kit in the Blinky folder, select F31x Blinky and click Finish .6. Click on the project in the Project Explorer and click Build , the hammer icon in the top bar. Alternatively, go to Project →Build Project .7. Click Debug to download the project to the hardware and start a debug session.8. Press the Resumebutton to start the code running. The LED should blink.9. Press the Suspend button to stop the code.10. Press the Reset the devicebutton to reset the target MCU.11. Press the Disconnectbutton to return to the development perspective.3.2. Simplicity Studio HelpSimplicity Studio includes detailed help information and device documentation within the tool. The help containsdescriptions for each dialog window. To view the documentation for a dialog, click the question mark icon in the window:This will open a pane specific to the dialog with additional details.The documentation within the tool can also be viewed by going to Help →Help Contents or Help →Search .C8051F31x3.3. Legacy 8-bit IDENote:Using the Simplicity Studio tools with the C8051F310 Development Kit is recommended. See section 3. "SoftwareSetup‚" on page 2 for more information.Download the 8-bit software from the website (/8bit-software ) or use the provided installer on the CD-ROM to install the software tools for the C8051F31x devices. After installation, examples can be found in ...\Examples\C8051F31x in the installation directory. At a minimum, the C8051F310 DK requires:⏹ Silicon Labs IDE —Software enabling initial evaluation, development, and debugging.⏹ Configuration Wizard 2—Initialization code generation software for the C8051F31x devices.⏹ Keil C51 Tools —Keil 8051 Compiler/Assembler/Linker toolchain.Other software available includes:⏹ Keil µVision Driver —Driver for the Keil µVision IDE that enables development and debugging onC8051Fxxx MCUs.⏹ Flash Programming Utilities and MCU Production Programmer —Programming utilities for the production line. More information on the available programming options can be found on the website:/products/mcu/Pages/ProgrammingOptions.aspx .⏹ ToolStick Development Tools —Software and examples for the ToolStick development platform. More information on this platform can be found at /toolstick .The development kit includes the latest version of the C51 Keil 8051 toolset. This toolset is initially limited to a code size of 2kB and programs start at code address 0x0800. After registration, the code size limit is removed entirely and programs will start at code address 0x0000.To register the Keil toolset:1. Find the Product Serial Number printed on the CD-ROM. If you no longer have this serial number, register on the Silicon Labs website (/8bit-software ) to obtain the serial number.2. Open the Keil µVision4 IDE from the installation directory with administrative privileges.3. Select FileLicense Management to open the License Management window.Figure 3.Keil µVision4 IDE License Management Window4. Click on the Get LIC via Internet... button to open the Obtaining a License IDE Code (LIC) window.5. Press OK to open a browser window to the Keil website. If the window doesn’t open, navigate to /license/install.htm .6. Enter the Silicon Labs Product Serial Number printed on the CD-ROM, along with any additional requiredC8051F31xinformation.7. Once the form is complete, click the Submit button. An email will be sent to the provided email addresswith the license activation code.8. Copy the License ID Code (LIC) from the email.9. Paste the LIC into the New License ID Code (LIC) text box at the bottom of the License Managementwindow in µVision4.10. Press the Add LIC button. The window should now list the PK51 Prof. Developers Kit for Silabs as alicensed product.11. Click the Close button.C8051F31x4. Target BoardThe C8051F31x Development Kit includes a target board with a C8051F310 device pre-installed for evaluation and preliminary software development. Numerous input/output (I/O) connections are provided to facilitate prototyping using the target board. Refer to Figure4 for the locations of the various I/O connectors.P1Power connector (accepts input from 7 to 15 VDC unregulated power adapter)J134-pin Expansion I/O connectorJ3Port I/O Configuration connectorJ4DEBUG connector for Debug Adapter interfaceJ5DB-9 connector for UART0 RS232 interfaceJ6Analog I/O terminal blockJ7Low pass filter connectorJ8USB Debug Adapter target board power connectorJ9, J10External crystal enable connectorsFigure4.C8051F310 Target BoardC8051F31x4.1. System Clock SourcesThe C8051F310 device installed on the target board features a calibrated programmable internal oscillator which is enabled as the system clock source on reset. After reset, the internal oscillator operates at a frequency of 3.0625MHz (±2%) by default but may be configured by software to operate at other frequencies. Therefore, in many applications an external oscillator is not required. However, if you wish to operate the C8051F310 device at a fre-quency not available with the internal oscillator, an external crystal may be used. Refer to the C8051F31x data sheet for more information on configuring the system clock source.The target board is designed to facilitate the installation of an external crystal. Remove shorting blocks at headers J9 and J10 and install the crystal at the pads marked Y1. Install a 10M resistor at R9 and install capacitors at C14 and C15 using values appropriate for the crystal you select. Refer to the C8051F31x data sheet for more infor-mation on the use of external oscillators.4.2. Switches and LEDsTwo switches are provided on the target board. Switch SW1 is connected to the RESET pin of the C8051F310. Pressing SW1 puts the device into its hardware-reset state. Switch SW2 is connected to the C8051F310’s general purpose I/O (GPIO) pin through headers. Pressing SW2 generates a logic low signal on the port pin. Remove the shorting block from the header to disconnect SW2 from the port pins. The port pin signal is also routed to a pin on the J1 I/O connector. See Table1 for the port pins and headers corresponding to each switch.Two LEDs are also provided on the target board. The red LED labeled PWR is used to indicate a power connection to the target board. The green LED labeled with a port pin name is connected to the C8051F310’s GPIO pin through headers. Remove the shorting block from the header to disconnect the LED from the port pin. The port pin signal is also routed to a pin on the J1 I/O connector. See Table1 for the port pins and headers corresponding to each LED.Table 1. Target Board I/O DescriptionsDescription I/O HeaderSW1Reset noneSW2P0.7J3[3-4]Green LED P3.3J3[1-2]Red LED PWR noneC8051F31x4.3. Expansion I/O Connector (J1)The 34-pin Expansion I/O connector J1 provides access to all signal pins of the C8051F310 device. Pins for +3V, digital ground and the output of an on-board low-pass filter are also available. A small through-hole prototyping area is also provided. All I/O signals routed to connector J1 are also routed to through-hole connection points between J1 and the prototyping area (see Figure4 on page6). Each connection point is labeled indicating the signal available at the connection point. See Table2 for a list of pin descriptions for J1.Table 2. J1 Pin DescriptionsPin #Description Pin #Description Pin #Description1+3VD(+3.3VDC)13P1.225P2.62PWM Output14P1.326P2.73P0.015P1.427P3.04P0.116P1.528P3.15P0.217P1.629P3.26P0.318P1.730P3.37P0.419P2.031P3.48P0.520P2.132/RST (Reset)9P0.621P2.233GND (Ground)10P0.722P2.334GND (Ground)11P1.023P2.412P1.124P2.54.4. Target Board DEBUG Interface (J4)The DEBUG connector (J4) provides access to the DEBUG (C2) pins of the C8051F310. It is used to connect the Serial Adapter or the USB Debug Adapter to the target board for in-circuit debugging and Flash programming. Table3 shows the DEBUG pin definitions.Table 3. DEBUG Connector Pin DescriptionsPin #Description1+3VD(+3.3VDC)2, 3, 9GND (Ground)4C2D5/RST(Reset)6P3.07C2CK8Not Connected10USB PowerC8051F31x4.5. Serial Interface (J5)A RS232 transceiver circuit and DB-9 (J5) connector are provided on the target board to facilitate serial connec-tions to UART0 of the C8051F310. The TX, RX, RTS and CTS signals of UART0 may be connected to the DB-9 connector and transceiver by installing shorting blocks on header J3.J3[5–6]- Install shorting block to connect UART0 TX (P0.4) to transceiver.J3[7–8]- Install shorting block to connect UART0 RX (P0.5) to transceiver.J3[9–10]- Install shorting block to connect UART0 RTS (P3.1) to transceiver.J3[11–12]- Install shorting block to connect UART0 CTS (P3.2) to transceiver.4.6. Analog I/O (J6)Several of the C8051F310 target device’s port pins are connected to the J6 terminal block. Refer to Table4 for the J6 terminal block connections. Install a shorting block on J7[2-3] to connect the AIN2.4 input to the P2.4 pin of the target device.Table 4. J6 Terminal Block Pin DescriptionsPin #Description1P2.5 / AIN2.52AIN2.43GND (Ground)4P0.0 / Vref (Voltage Reference)4.7. USB Debug Adapter Target Board Power Connector (J8)The USB Debug Adapter includes a connection to provide power to the target board. This connection is routed from J4[10] to J8[1]. Place a shorting block at header J8[2–3] to power the board directly from an ac/dc power adapter. Place a shorting block at header J8[1–2] to power the board from the USB Debug Adapter. Please note that the second option is not supported with either the EC1 or EC2 Serial Adapters.4.8. Low-Pass Filter (J7)The C8051F310 target board features a low-pass filter that may be connected to port pin P2.4. Install a shorting block on J7[1–2] to connect the P2.4 pin of the target device to the low-pass filter input. The output of the low-pass filter is routed to the PWM signal at J1[2]. The C8051F310 may be programmed to generate a PWM (Pulse-Width Modulated) waveform which is then input to the low-pass filter to implement a user-controlled PWM digital-to-ana-log converter. Refer to Applications Note “AN107: Implementing 16-Bit PWM Using the PCA” in the “documenta-tion” directory on the CD-ROM for a discussion on generating a programmable dc voltage level with a PWM waveform and low-pass filter.C8051F31xC8051F31x D OCUMENT C HANGE L ISTRevision 0.4 to Revision 0.5⏹ Section 1, added USB Debug Adapter and USB Cable.⏹ Section 2, changed name from "Hardware Setup" to "Hardware Setup using an EC2 Serial Adapter".⏹ Section 2, added 2 Notes bullets.⏹ Section 2, removed Note from bottom of page.⏹ Added Section 3, "Hardware Setup using a USB Debug Adapter".⏹ Section 5.4.2, changed step 2 to include new instructions.⏹ Section 7, J4, changed "Serial Adapter" to "Debug Adapter".⏹ Target Board DEBUG Interface Section, added USB Debug Adapter.⏹ DEBUG Connector Pin Descriptions Table, changed pin 4 to C2D.⏹ Changed "jumper" to "header".⏹ EC2 Serial Adapter section, added EC2 to the section title, table title and figure title.⏹ EC2 Serial Adapter section, changed "JTAG" to "DEBUG".⏹ Added "USB Debug Adapter" section.⏹ Section 7, J8, changed "Serial Adapter" to "USB Debug Adapter".⏹ DEBUG Connector Pin Descriptions Table, changed pin 10 to USB Power.⏹ USB Debug Adapter Target Board Power Connector (J8) Section, changed "Serial" to "USB Debug". Revision 0.5 to Revision 0.6⏹ Removed EC2 Serial Adapter from Kit Contents.⏹ Removed Section 2. Hardware Setup using an EC2 Serial Adapter. See RS232 Serial Adapter (EC2)User's Guide.⏹ Removed Section 8. EC2 Serial Adapter. See RS232 Serial Adapter (EC2) User's Guide.⏹ Removed Section 9. USB Debug Adapter. See USB Debug Adapter User's Guide.Revision 0.6 to Revision 0.7⏹ Updated 3. "Software Setup‚" on page 2.DisclaimerSilicon Laboratories intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Laboratories products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and "Typical" parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Laboratories reserves the right to make changes without further notice and limitation to product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Silicon Laboratories shall have no liability for the consequences of use of the information supplied herein. This document does not imply or express copyright licenses granted hereunder to design or fabricate any integrated circuits. The products must not be used within any Life Support System without the specific written consent of Silicon Laboratories. A "Life Support System" is any product or system intended to support or sustain life and/or health, which, if it fails, can be reasonably expected to result in significant personal injury or death. Silicon Laboratories products are generally not intended for military applications. Silicon Laboratories products shall under no circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, or missiles capable of delivering such weapons.Trademark InformationSilicon Laboratories Inc., Silicon Laboratories, Silicon Labs, SiLabs and the Silicon Labs logo, CMEMS®, EFM, EFM32, EFR, Energy Micro, Energy Micro logo and combinations thereof, "the world’s most energy friendly microcontrollers", Ember®, EZLink®, EZMac®, EZRadio®, EZRadioPRO®, DSPLL®, ISOmodem ®, Precision32®, ProSLIC®, SiPHY®, USBXpress® and others are trademarks or registered trademarks of Silicon Laboratories Inc. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is a registered trademark of ARM Limited. All other products or brand names mentioned herein are trademarks of their respective holders. Silicon Laboratories Inc.400 West Cesar ChavezAustin, TX 78701USAIoT Portfolio/IoT SW/HW /simplicity Quality /quality Support and Community 。

User’s GuideTacómetro Digital de ContactoModelo 461891• Mide desde 0.5 a 19999 r.p.m.• Llamada de memoria Min/Max• Incluye aditamentos de cono, embudoy superficie• Base de tiempo de cristal de cuarzoINTRODUCCIÓNFelicitaciones por su compra del Tacómetro Digital de Extech. Este medidor profesional, con el cuidado adecuado, le proporcionará muchos años de servicio confiable y seguro. ESPECIFICACIONESEspecificaciones GeneralesCircuito Exclusivo circuito microprocesador de un chip LSIBase de tiempo Cristal de cuarzoPantalla Pantalla LCD de funciones múltiples de 5 dígitos, 10mm(0.4")Medición RotaciónSuperficie 0.5 a 19,999 rpm.0.2 a 6560 ft/min. 0.05 a 1999.9 m/minMemoria Lectura del último valor y máx y min.Tiempo de muestreo 1 segundoTemperatura/RH de operación0 °C a 50 °C (32 °F a 122 °F) / <80% RHFuente de poder 4 baterías de 1.5V AA (UM 3)Consumo de energía Aprox. 10 mAPeso280 g/ 0.62 lb. (incluyendo baterías)Dimensiones208 x 72 x 37 mm (8.2 x 2.8 x1.5")Accesorios Adaptador de cono para r.p.m., adaptador de embudopara r.p.m., rueda de prueba para velocidad desuperficie, estuche.Especificaciones de escalaEscala Resolución Precisiónr.p.m.0.5 a 19,999 r.p.m.0.1 r.p.m. (0.5 a 999.9 r.p.m.)1 r.p.m. (sobre 1000 r.p.m.)+ (0.05% +1d)@23+ 5o Cft/min0.2 a 6560 ft/min0.1 ft/min (0.2 to 999.9 ft/min)1 ft/min (sobre 1000 ft/min)± (1% rdg + 1d)m/min0.05 a 1999.9 m/min0.01 m/min (0.05 a 99.99 m/min)0.1 m/min (sobre 100 m/min)461891 Ver. 1.9 7/022OPERACIÓNMedición de r.p.m.a) Deslice el selector de función a la posición "rpm".b) Instale en el eje el adaptador de rpm apropiadoc) Oprima el botón de medición tocando ligeramente el adaptador de rpm contra laapertura central de una flecha giratoria en alineación correcta. Suelte el botón demedición cuando se estabilice la lectura en la pantalla (entre 1 y 2 segundos).Medición de la velocidad de superficiea) Deslice el selector de función a la posición "ft/min" o "m/min"b) Coloque la rueda de prueba de velocidad de superficie en el ejec) Oprima el botón de medición y sostenga la rueda de prueba contra el dispositivobajo prueba. Suelte el botón de medición cuando se estabilice la lectura de lapantalla.Llamado de memoriaEn la memoria del medidor se guardan automáticamente el último valor y los valores máximo y mínimo obtenidos antes de soltar el botón de medición. Estos valoresmemorizados pueden ser mostrados oprimiendo el botón de memoria como sedescribe a continuación:a) Oprima una vez y sostenga – se muestra el último valor seguido por el icono "LA"b) Oprima de nuevo y sostenga - se muestra el valor máximo seguido por el icono"UP"c) Oprima de nuevo y sostenga - se muestra el valor mínimo seguido por el icono"dn"461891 Ver. 1.9 7/023MANTENIMIENTOReemplazo de la batería: Cuando aparezca el indicador de batería baja ("LO" en la pantalla), deslice la cubierta de la batería de la parte posterior del instrumento y reemplace las cuatro baterías 1.5V AA y reemplace la cubierta. Quite las baterías si no va a usar el instrumento durante un largo periodo de tiempo.Limpieza: Use solo un paño seco para limpiar la caja de plástico.SERVICIOS DE REPARACIÓN Y CALIBRACIÓNEn Extech ofrecemos servicios completos de reparación y calibración para todos los productos que vendemos. Llame al departamento de servicio a clientes para obtener mayor información acerca de los servicios disponibles sobre calibración periódica,certificación NIST o reparación de cualquiera de los productos Extech. Para asegurar la integridad de la medición, Extech recomienda realizar anualmente la calibración. GARANTÍAEXTECH INSTRUMENTS CORPORATION garantiza este instrumento para estar libre de defectos en partes o mano de obra durante un año a partir de la fecha de embarque (se aplica una garantía limitada a seis meses para los cables y sensores). Si fuera necesario regresar el instrumento para servicio durante o después del periodo de garantía, llame al Departamento de Servicio a Clientes al teléfono (781) 890-7440 para solicitar autorización. Se debe emitir un número de Autorización de Retorno (RA) antes de regresar cualquier producto a Extech. El remitente es responsable por los cargos de envío, flete, seguro y empaque adecuado para prevenir daños en tránsito. Esta garantía no se aplica a defectos que resulten por acciones del usuario como mal uso, alambrado inapropiado, operación fuera de las especificaciones, mantenimiento o reparaciones inapropiadas o modificaciones no autorizadas. Extech específicamente rechaza cualquier garantía implícita o aptitud o facilidad de venta para un propósito específico y no será responsable por cualesquieradaños directos, indirectos, incidentales o consecuentes. La responsabilidad total de Extech está limitada a la reparación o reemplazo del producto. La garantía precedente es inclusiva y no hay otra garantía ya sea escrita, oral, expresa o implícita.Copyright ©2002 Extech Instruments Corporation. Todos los derechos reservados Incluyendo el derecho de reproducción total o parcial de cualquier manera.461891 Ver. 1.9 7/024。

EasyBoard51开发板光盘使用说明
当你拿到Easy Board 51开发板后，大家不要着急。

按我得步骤一步一步走下去。

1.安装4个铜柱和螺丝，防止板卡短路。

2.不要更改单片机里的程序。

也可以不用安装驱动程序。

3.找到红外遥控，拔出透明绝缘胶片。

4.插上USB导线，打开电源。

5.观察数码管是否正常显示"HELLO-51" ，如果不能显示，你可以按遥控器“0”键激活。

6.进入文件夹：1.第一步 Easy Board 51 开发板整机测试；观看视频按视频步骤完成板卡测试。

7.进入我们的视频教程学习。

进入第一课，学习51单片机开发环境建立；包括 keil 安装，USB驱动程序安装，ISP烧写软件安装。

大家，按视频教程，一步一步学习。

遇到问题，可以到技术群里讨论。

也可以，联系我们。

1.54inch e-Paper Module (C)User ManualVersion Data DescriptionV1.0 2017.05.17 First EditionV2.0 2018.12.05 Notes【Notes】⚫Please read this manual before you use the e-Paper. Damage caused by wrong operations is not within the scope of the warranty⚫This manual shows you how to use the e-paper with the demo codes we provide. ⚫The e-paper described in this manual is Module/HAT version. (Raw panel should work with driver board)⚫All specification supplied herein are subject to change without notice at any time.Types Description (4)Notes (5)Overview (7)Specification (7)Interfaces (8)Working Principle (9)4-wire SPI (9)Demo codes (11)Download (11)Raspberry Pi (12)Hardware connection (12)Copy examples to Raspberry Pi (12)Libraries Installation (13)Running demo codes (15)Expected result (16)Arduino (17)Hardware connection (17)Running examples (17)Expected result (18)STM32 (19)Hardware connection (19)Running example (19)Expected result (19)Codes Description (20)Version (20)C codes (20)Python codes (24)Image Data Array (25)Generally, there are two versions for every type of e-paper, one is raw panel, and another is Module/HAT version.Raw panel should work with driver board, if you are the first time to use Waveshare e-Paper, we recommend you the Module/HAT version or purchase a driver board separately.Module/HAT version has PCB which integrates driver circuit. You can connect 8Pin connector to MCU directly.Raw Panel (1.54inch e-Paper C):Module Version (1.54inch e-Paper Module C):1.For those e-Paper which support partial refresh, you cannot use partial refresh allthe time. A full refresh should be done to clear screen after several times(partial refresh), otherwise, e-Paper will be damaged and cannot fixed.2.Three-color e-Paper is normal to be a little “color” . You can refresh it to whiteand keep it upward for storage.3.The e-Paper cannot be powered on for long time, you must set e-Paper to sleepmode or power off when it needn’t refresh, otherwise, e-Paper keeps in high voltage status for long time, which will damage e-Paper and cannot be fixed.4.We suggest you update e-Paper once every 24 hours or at least 10 days1toupdate again. Otherwise, ghost of the last content may cannot be cleared.5.e-Paper ignores the data sent when it is in sleep mode, you need to initialize it forproperly refreshing.6.You can adjust border color by controlling 0x3C register. In some of demo codes,you can adjust Border Waveform Control or VCOM AND DATA INERTVAL SETTING registers.7.If you find that the image data you made cannot be properly displayed on e-Paper, please check the size of image, or change its width and height and tryagain.1For details of operating requirement, please refer to datasheet8.The e-Paper cannot refresh directly under sunlight2. The refresh steps should bedone indoor9.For raw panel, its working voltage is 3.3V, note that when you designed you owndriver board, level convert circuit is required if the working voltage of your board is 5V. Module/HAT version can support 5V voltage if the Module you buy is the new version which has been integrated convert circuit.10.The FPC of the panel is fragile, please make sure that your bend it in correct way.11.The glass raw panel is fragile, please do not falling, crashing or pressing hard.12.We recommend you test the e-Paper with our demo code when you first timereceive it.2e-Paper don’t have UV film, cannot work under sunlight directly⚫This is an E-Ink display module, 1.54inch, 152x152 resolution, with embedded controller, communicating via SPI interface, support yellow, black and white three color.⚫Due to the advantages like ultra-low power consumption, wide viewing angle, clear display without electricity, it is an ideal choice for applications such as shelf label, industrial instrument, and so on.⚫We provide demo codes for you (Arduino, Raspberry Pi and STM32) SPECIFICATION⚫Operating Voltage: 3.3V/5V3⚫Wo rking Temperature: 0~50°C⚫Interface: 3-wire SPI/4-wire SPI⚫Dimension:◼PCB: 48mmx33mm◼Raw Panel: 37.32mm × 31.8mm⚫Display area: 27.6mm × 27.6mm⚫Dot pitch: 0.181 × 0.181⚫Resolution: 152x152⚫Display color: Yellow, Black, White⚫Refresh time4:3The voltage of every pins should be same 3.3V or 5V4These are experimental data; actual data may be different according to working situation◼Full refresh: 27s⚫Consumption5:◼Refresh consumption: 26.4mW(typ.)◼Standby consumption: <0.017mW⚫V iewing angle: >170°INTERFACESVCC ：3.3V/5VGND ：GNDDIN ：SPI MOSI pinCLK ：SPI SCK pinCS ：SPI chip selection, low activeDC ：Data/Command Selection（High: Data; Low: Command）RST ：Reset（Low active）BUSY ：Busy（Low active）5These are experimental data; actual data may be different according to working situationThis product is an E-paper device adopting the image display technology of Microencapsulated Electrophoretic Display, MED. The initial approach is to create tiny spheres, in which the charged color pigments are suspending in the transparent oil and would move depending on the electronic charge. The E-paper screen display patterns by reflecting the ambient light, so it has no background light requirement. Under sunshine, the E-paper screen still has high visibility with a wide viewing angle of 180 degree. It is the ideal choice for E-reading.4-WIRE SPIDifferent from the traditional SPI protocol6, the data line from the slave to the master is hidden since the device only has display requirement.⚫CS is slave chip select, when CS is low, the chip is enabled.6You can search online for more information about traditional SPI protocol⚫DC is data/command control pin, when DC = 0, write command, when DC = 1, write data.⚫SCLK is the SPI communication clock.⚫SDIN is the data line from the master to the slave in SPI communication.SPI communication has data transfer timing, which is combined by CPHA and CPOL. 1.CPOL determines the level of the serial synchronous clock at idle state. WhenCPOL = 0, the level is Low. However, CPOL has little effect to the transmission. 2.CPHA determines whether data is collected at the first clock edge or at the secondclock edge of serial synchronous clock; when CPHL = 0, data is collected at the first clock edge.⚫There are 4 SPI communication modes. SPI0 is commonly used, in which CPHL = 0, CPOL = 0.As you can see from the figure above, data transmission starts at the first falling edge of SCLK, and 8 bits of data are transferred in one clock cycle. In here, SPI0 is in used, and data is transferred by bits, MSB.DOWNLOADPlease visit Waveshare Wiki, search with key words “1.54inch e-Paper module. Download the demo code from wiki,Extract it and you can get these folders:Arduino7: Demo code for Arduino UNO;RaspberryPi: Demo codes for Raspberry Pi. (BCM2835, wiringPi and python) STM32: Demo code for STM32, control board is STM32F103ZET67If you use other Arduino board, you should check if it is compatible with Arduino Uno, or modification is required.RASPBERRY PIThere are four examples for Raspberry Pi, bcm2835, wiringPi, python2 and python3. HARDWARE CONNECTIONCOPY EXAMPLES TO RASPBERRY PI1.Insert SD card which has Raspbian installed to your PC2.Copy RaspberryPi extracted to root directory (BOOT) of SD card3.Power on your Raspberry Pi and open Terminal, you can find that the examples islisted in boot directory4.Copy the RaspberryPi folder to /home/pi and change its execute permission.LIBRARIES INSTALLATIONTo use demo codes, libraries should be installed first.BCM2835 LIBRARYDownload link of the bcm2835 library: /mikem/bcm2835/ Download the library and copy it to raspberry pi without extracting. Open terminal of raspberry pi and install:Note: xx is version of the library you download. For example, if the version is bcm2835-1.52, you should complete the command to: sudo tar zxvf bcm2835-1.52.tar.gzWIRINGPI LIBRARYOpen Terminal and install wiringPi with commands below:PYTHON2 LIBRARYOpen Terminal and execute commands to install:PYTHON3 LIBRARYOpen Terminal and install library with commands:If you get the error while installing Pillow: ImportError: libopenjp2.so.7: cannot open shared object file: No such file or directory. Please install libopenjp2-7-dev with the command: sudo apt-get install libopenjp2-7-dev then try again.RUNNING DEMO CODESEnter folder of examplesRunning bcm2835 example:Running wiringPi example:Running python2 example:Running python3 example:EXPECTED RESULTAfter running example:1)The screen is refresh to white2)Display a picture3)Draw circles and lines, text is displayedYou can press ctrl and c at the same time to stop code.ARDUINONote: If the driver board you bought is e-Paper shield, you can use the demo codes provided for e-Paper shield separately which can be downloaded in corresponding wiki.HARDWARE CONNECTIONIf you use other Arduino board instead of Arduino UNO, you should check if its interfaces are compatible with UNO.RUNNING EXAMPLES1.Make sure you have installed Arduino IDE in your PC2.Open Arduino project3.Select correct Board and Portpile and upload to Arduino boardEXPECTED RESULTUNO PLUS has only 2k flash for global variables, cannot support a full image buffer. Therefore only picture display function is provided for Arduino example。

EXCD‐1开发板参考手册北京中教仪装备技术有限公司2010年3月目录1 概述 (1)2 板上资源 (2)3 使用说明 (3)3.1使用前准备 (3)3.2输入时钟 (4)3.3LED，拨码开关和按键 (5)3.47段数码管 (9)3.5VGA接口 (10)3.6RS232串口 (12)3.7PS/2鼠标键盘接口 (13)3.8I/O扩展接口 (14)3.9SRAM和F LASH存储器 (16)联系我们地址：北京市西城区德外大街4号C座邮编：100120客户服务热线：4006061700传真 : 010- 58582440销售Email : ECsales@技术支持Email：Ecservice@网址：1 概述EXCD-1是一款易于使用的开发板，它能够实现大量基于FPGA 的数字系统。

开发板采用Xilinx Spartan 3E FPGA 器件，板上资源丰富，有2Mbytes 的Flash 和1Mbytes 的快速SRAM ，以及各种输入输出设备，可以方便的设计具有各种功能的数字系统，也可设计含有Xilinx MicroBlaze 软核的嵌入式处理器系统。

EXCD-1开发板有5个扩展接口，可灵活的扩展各种功能模块，如数模转换模块，模数转换模块，LCD 显示模块等。

VGA 接口RS232PRomPS2LEDs晶振图1-1 EXCD-1开发板2板上资源displays 4 buttons port2图2-1 EXCD-1板上资源框图1.Xilinx Spartan 3E XC3S500E PQ208 FPGA器件z10,476 逻辑单元z1,164 CLBsz73Kbits分布式RAMz360Kbits块RAMsz20个专用乘法器z4个DCMsz158个用户I/O管脚z PQ208管脚封装2.时钟：50MHZ晶振输入3.高速异步SRAMz512K × 16bits4.Flash存储器z1M ×16bits5.配置Flash： XCF04Sz4Mbit6.JTAG 下载接口7.4个按键8.1个4位7段数码管9.2个DIP开关10.8个拨码开关11.8个发光二极管12.1个PS2接口13.1个RS232接口14.1个VGA接口15.扩展接口：z4个具有8个IO信号的12-PIN扩展接口z1个具有34个IO信号的68-PIN SCSI 扩展接口16.1个电源接口17.1个电源拨码开关18.1个复位按钮3使用说明3.1 使用前准备1.连接电源；2.连接Xilinx USB平台电缆或并口下载线，用于配置FPGA和平台Flash；3.连接串行电缆板上相应端口。

SOM200RD-XI Development Kitwith 5S / 4 USB / LAN / 2GPIO / PWMx24 256MB DDR2 OnboardUser’s Manual(Revision 1.0A)October, 2012Trademarks AcknowledgmentVortex86DX is the registered trademark of DMP Electronics Inc.Other brand names or product names appearing in this document are the properties and registered trademarks of their respective owners. All names mentioned herewith are reserved for identification purpose only.T a b l e o f C o n t e n t sT a b l e o f C o n t e n t s (iii)C h a p t e r 1 Introduction (1)1.1 Packing List (1)1.2 Product Description (2)1.3 Specifications (3)1.4 Board Dimension (5)C h a p t e r 2 Installation (8)2.1 Board Outline (8)2.2 Connectors & Jumpers Location (11)2.3 Connectors & Jumpers Summary (12)2.4 Pin Assignments & Jumper Settings (13)2.5 System Mapping (25)2.6 Watchdog Timer (30)2.7 GPIO (31)2.8 SPI flash (32)2.9 PWM (33)3.0 IDE to SD (34)C h a p t e r 3 Driver Installation (35)Appendix (36)A. TCP/IP library for DOS real mode (36)B. SOM200RD-XI & SOM200DX-DEV-XI Schematic (37)C. BIOS Default Setting (38)Warranty (39)This page is blankC h a p t e r 1Introduction 1.1 Packing ListProduct NamePackageSOM200DX-DEV-XIRS232 cable (2.54mm) x 4USB (2.54mm) x 1SOM200RD-XI CPU Module x 1Product NamePackageICOP-0091ICOP-2811PC/104 Interface to ISA Bus x 11.2 Product DescriptionThe System on Module is a core module with the processor, memory and I/O that would contain the following benefits in the respect of system design.800MHz Vortex86DX System-On-Chip 256 / 512MB DDR2 system memory4 USB Ver. 2.0 (host)5 serial ports16-bit GPIO x2ISA bus2 watchdog timerEnhanced IDE (UltraDMA-100/66/33) JTAG interfacePWM 24~32 channelsAMI BIOS4MB SPI flashSingle voltage +5V DCSupport extended operatingtemperature range from -20°C to +70°SOM200RD-XI is suitable for broad range of data-acquisition, Industrial automation, Process control, Automotive controller, AVL, Intelligent Vehicle management device,Medical device, Human machine interface, Robotics and machinery control.SOM200RD-XI measured at only 52mm (L)*52mm (W)*10.5mm (H), is designed particularly as the kernel for the diverse expandable applications. Through 8 rows of25pin connector, SOM200RD-XI is able to provide multiple functions, such as RS-232, ISA, IDE, LAN, USB and GPIO.To assist users easily adapt SOM200RD-XI Module into their applications, ICOP offers a complete development board and referential circuit diagram for SOM200RD-XI Module in order to reduce users’ time.Please visit the website below for further information/tech/vortex86dx/As to the referential circuit drawing, please contact *************.tw1.3 SpecificationsSOM200RD-DEV-XIFeatures SOM200DX-DEV-XI Bus Interface 16-bit x-ISA BusConnectors 2.54mm 26-pin header for Printer x12.54mm 10-pin header for USB x12.54mm 10-pin header for RS-232 x498-pin slot for ISA x1104-pin box header for PC/104 x1External USB connector x2External 9-pin D-Sub male connector for RS-232 x2External 6-pin Mini DIN connector for Keyboard x1External 6-pin Mini DIN connector for Mouse x1SOM200RD-XIFeatures SOM200RD-XICPU DM&P SoC CPU Vortex86DX- 800MHzReal Time Clock with Lithium Battery BackupCache L1:16K I-Cache, 16K D-Cache L2 Cache 256KBBIOS AMI BIOSBus Interface 16-bit x-ISA BusSystem Memory 256 / 512MB DDR2 onboardWatchdog Timer Software programmable from 30.5 us to 512 seconds x2sets(Watchdog 1 fully compatible with M6117D)LAN Integrated 10/100Mbps EthernetFlash Disk Support Onboard 4MB SPI Flash DiskOnboard SST Flash Disk (512MB/1GB/2GB/4GB areoptional)MSTI EmbedDisk Module (16MB and above)44-pin IDE to Micro SD (Optional)PWM 24~32 ChannelsI2C Controlled by GP 34/35Serial Console Controlled by GP 36/37I /O Interface Enhanced IDE port (UltraDMA-100/66/33) x1RS-232 port x5 (TX/RX x1)USB port (Ver2.0) x4Parallel port x11.25mm 6-pin Wafer for JTAG x1Power Requirement Single Voltage +5V @ 600mADimension 52 mm (L) x 52 mm (W) x 10.5 mm (H) (With Cover) Weight 15gOperating Temperature -20o C ~ +70o C-40°C ~ +85°C (Optional)1.4 Board DimensionS OM200DX-DEV-XISOM200RD-XIC h a p t e r 2C h a p t e r 2Installation 2.1 Board OutlineSOM200DX-DEV-XICOM2COM1COM2USB 0, 1LANUSBAudioPS/2 KB/MouseS OM200DX-DEV-XI Development KitPS/2 Mouse PS/2 KBDCOM2COM1USBMIC-INLINE-OUTLINE-IN VGALCDICOP-2811ICOP-0091LANS OM200RD-XIJTAG2.2 Connectors & Jumpers LocationConnectorsSOM200DX-DEV-XIJ21J35J20J19J18J17J26J12J16SW1J7J45USB1J46J9J13SW2 J8 J1 J2J11J10J14J32.3 Connectors & Jumpers SummarySOM200DX-DEV-XINbr Description Type of Connections Pin nbrs.J1 IDE Connector Box Header, 2.0∅, 22x2 44-pinJ2 IDE Connector Box Header, 2.54∅, 20x2 40-pinJ3 USB 2/ USB 3 Box Header, 2.54∅, 5x2 10-pinUSB1A USB 0/ USB 1 USB connector8-pinUSB1B Ethernet LAN RJ45 Connector 8-pinJ7A PS/2 Keyboard Mini-DIN Female6-pinJ7B PS/2 Mouse Mini-DIN Female6-pinJ8 Redundancy Box Header, 2.0∅, 5x210-pinJ9 TTL/RS232 Mode Selector Pin Header, 2,54∅, 1x2 2-pinJ10 COM1/P4/PWM Box Header, 2.54∅, 5x2 10-pinJ11 GPIO ( P0 / P1 /PWM) Box Header, 2.54∅, 10x220-pinJ12 GPIO (P2/P3/ SPI/i2C/PWM) Box Header, 2.54∅, 10x220-pinJ13 TTL/RS232 Mode Selector Pin Header, 2,54∅, 1x2 2-pinJ14 COM2 Box Header, 2.54∅, 5x2 10-pinJ16 ATX Power ATX header 20-pinJ17 Power Connector Terminal Block 5.0∅, 2x1 2-pinJ18 COM3 TTL Mode Box Header, 2.54∅, 5x2 10-pinJ19 Print Box Header, 2.54∅, 13x2 26-pinJ20 COM4 TTL Mode Box Header, 2.54∅, 5x2 10-pinJ21 ISA Slot ISA Slot 98-pinJ26 Console RedirectionJ35A PC104 Connector – 64 pin Box Header, 2.54∅ 32x2 64-pinJ35B PC104 Connector – 40 pin Box Header, 2.54∅ 20x2 40-pinJ45A COM1 D-Sub Male 9-pinJ45B COM2 D-Sub Male 9-pinJ46A Audio Mic-In 1.25mm Phone JackJ46B Audio Line-Out 1.25mm Phone JackJ46C Audio Line-In 1.25mm Phone JackSP1 BUZZERSW1 PWR-SWSW2 Reset2.4 Pin Assignments & Jumper Settings SOM200DX-DEV-XIJ1: IDE (44 Pins)Pin # Signal Name Pin # Signal Name1 IDERST2 GND3 IDED74 IDED85 IDED6 6 IDED97 IDED5 8 IDED109 IDED4 10 IDED1111 IDED3 12 IDED1213 IDED2 14 IDED1315 IDED1 16 IDED1417 IDED0 18 IDED1519 GND 20 NC21 IDEREQ 22 GND23 IDEIOW 24 GND25 IDEIOR 26 GND27 ICHRDY 28 GND29 IDEACK 30 GND31 IDEINT 32 NC33 IDESA1 34 IDECBLID35 IDESA0 36 IDESA237 IDECS-0 38 IDECS139 IDELED 40 GND41 VCC 42 VCC43 GND 44 NCJ2: IDE (40 Pins)Pin # Signal Name Pin # Signal Name1 IDERST2 GND3 IDED74 IDED85 IDED6 6 IDED97 IDED5 8 IDED109 IDED4 10 IDED1111 IDED3 12 IDED1213 IDED2 14 IDED1315 IDED1 16 IDED1417 IDED0 18 IDED1519 GND 20 VCC21 IDEREQ 22 GND23 IDEIOW 24 GND25 IDEIOR 26 GND27 ICHRDY 28 GND29 IDEACK 30 GND31 IDEINT 32 NC33 IDESA1 34 IDECBLID35 IDESA0 36 IDESA237 IDECS0 38 IDECS139 IDELED 40 GNDJ3: USBPin # Signal Name Pin # Signal Name1 VCC2 VCC3 LUSBD0-4 LUSBD1-5 LUSBD0+6 LUSBD1+7 GND 8 GND9 GGND 10 GGNDNote:USB port 0, 1 will be occupied if audio function is available. USB1A: USB0/1Pin # Signal Name Pin # Signal Name1 VCC2 VCC3 -DATA4 -DATA5 +DATA6 +DATA7 GND 8 GNDUSB1B: Ethernet LANPin # Signal Name Pin # Signal Name1 TD+2 TD-3 RO+4 NC5 NC6 RO-7 NC 8 NCJ7A: PS/2 KeyboardPin # Signal Name Pin # Signal Name1 KBDATA2 NC3 GND4 VCC5 KBCLK6 RO-J7B: PS/2 MousePin # Signal Name Pin # Signal Name1 TD+2 TD-3 RO+4 NC5 NC6 RO-J8: RedundancyPin # Signal Name Pin # Signal Name1 SYS-FAIL-OUT2 RXD9\3 TXD9\4 SYS-FAIL-IN5 GND6 SYS-GPCS-IN7 GPCS0 8 SYS-SW-IN9 GPCS1 10 NCJ9: TTL/RS232 Mode Selector (Open: On, Close: Off) Pin # Signal Name Pin # Signal Name1 GND2 VCCJ10: COM1/P4/PWMPin # Signal Name Pin # Signal Name 1 DCD1 2 RXD1 3 TXD1 4 DTR1 5 GND 6 DSR1 7 RTS1 8 CTS1 9RI110TXDEN1/VCCJ11: GPIO (P0/ P1/ PWM)J12: GPIO (P2/ P3/ SPI/ I2C/PWM)Note:If you Enable 4M SPI flash Disk on the BIOS setting, you cannot use GP30~GP37 Pins.Pin # Signal Name Pin # Signal Name1 GND2 VCC3 GP004 GP105 GP016 GP117 GP028 GP129 GP03 10 GP13 11 GP04 12 GP14 13 GP05 14 GP15 15 GP06 16 GP16 17 GP07 18 GP17 19 VCC 20GNDPin # Signal Name Pin # Signal Name1 GND2 VCC3 GP204 SPICS5 GP216 SPICLK7 GP228 SPIDO9 GP23 10 SPIDI 11 GP24 12 GP34 13 GP25 14 GP35 15 GP26 16 GP36 17 GP27 18 GP37 19 VCC 20 GNDJ13: TTL/RS232 Mode Selector (Open: On, Close: Off) Pin # Signal Name Pin # Signal Name1 GND2 VCCJ14: COM2/Timer Counter Pin # SignalName Pin # Signal Name1 DCD2 2 RXD23 TXD24 DTR25 GND6 DSR27 RTS2 8 CTS29 RI2 10 TXDEN2/VCCJ16: ATX PowerJ17: Power Connector (Terminal Block 5.0mm)Pin # Signal Name1 +5V2 GND Pin # Signal Name Pin # Signal Name1 3V32 3V3 3 GND4 VCC5 GND6 VCC7 GND 8 NC 9 SB5V 10 +12V11 3V3 12 -12V 13 GND 14 SB5V15 GND 16 GND17 GND 18 -5V 19 VCC 20 VCCJ18: COM3 TTL ModePin # SignalNamePin #SignalName1 DCD32 RXD33 TXD34 DTR35 GND6 DSR37 RTS3 8 CTS39 RI3 10 VCCJ19: PRINTPin # Signal Name Pin # Signal Name1 STB- 14 AFD-2 PD0 15 ERR-3 PD1 16 INIT-4 PD2 17 SLIN-5 PD3 18 GND6 PD4 19 GND7 PD5 20 GND8 PD6 21 GND9 PD7 22 GND10 ACK- 23 GND11 BUSY 24 GND12 PE 25 GND13 SLCT 26 NCJ20: COM 4 TTL ModePin # SignalNamePin #SignalName1 DCD42 RXD43 TXD4 4 DTR45 GND6 DSR47 RTS48 CTS49 RI4 10 VCCPin # Signal Name Pin # Signal Name 1 IOCHCHK * 2 GND3 SD74 RSTDRV5 SD6 6 VCC7 SD5 8 IRQ99 SD4 10 -5V11 SD3 12 DRQ2 13 SD2 14 -12V15 SD1 16 OWS 17 SD0 18 +12V 19 IOCHRDY 20 GND21 AEN 22 SMEMW * 23 SA19 24 SMEMR * 25 SA18 26 IOW * 27 SA17 28 IOR * 29 SA16 30 DACK3 * 31 SA15 32 DRQ3 33 SA14 34 DACK1 * 35 SA13 36 DRQ1 37 SA12 38 REFRESH * 39 SA11 40 SYSCLK 41 SA10 42 IRQ7 43 SA9 44 IRQ6 45 SA8 46 IRQ5 47 SA7 48 IRQ4 49 SA6 50 IRQ3 51 SA5 52 DACK2 * 53 SA4 54 TC55 SA3 56 BALE 57 SA2 58 VCC59 SA1 60 OSC61 SA0 62 GND63 GND 64 GNDJ45A: COM 1 Pin # SignalName Pin # SignalName1 DCD12 RXD13 TXD14 DTR15 GND6 DSR17 RTS1 8 CTS19 RI1Pin # Signal Name Pin # Signal Name1 GND2 GND3 MEMCS16 *4 SBHE *5 IOCS16 * 6 SA237 IRQ108 SA229 IRQ11 10 SA21 11 IRQ12 12 SA20 13 IRQ15 14 SA1915 IRQ14 16 SA18 17 DACK0 * 18 SA17 19 DRQ0 20 MEMR *21 DACK5 * 22 MEMW * 23 DRQ5 24 SD8 25 DACK6 * 26 SD927 DRQ6 28 SD10 29 DACK7 * 30 SD11 31 DRQ7 32 SD12 33 VCC 34 SD1335 MASTER * 36 SD14 37 GND 38 SD15 39 GND 40 NCJ45B: COM 2Pin # SignalNamePin #SignalName1 DCD2 2 RXD23 TXD24 DTR25 GND6 DSR27 RTS28 CTS29 RI2SOM200RD-XISOM200RD-XIJ1/J2/J3/J4:SOM200RD-XI Signal Assignment2.5 System MappingMemory MappingAddress Description Usage 00000000 - 9000FFFF System RAM *A0000000 - A000FFFF EGA/VGA Video MemoryB0000000 - B0007FFF MDA RAM, Hercules graphics display RAMB0008000 - B000FFFF CGA display RAMC0000000 - C0007FFF EGA/VGA BIOS ROMC0008000 - C000BFFF Boot ROM enableC000C000 - C000FFFF Console Redirection enableD0000000 - D700FFFF Expansion ROM spaceD8000000 - DB00FFFF SPI FLASH Emulation Floppy A EnableDC000000 - DF00FFFF Expansion ROM SpaceE0000000 - E000FFFF USB Legacy SCSI ROM spaceF0000000 - F000FFFF Motherboard BIOS * FEFFD000 - FFFFF000 Standard OpenHCD USB Host Controller * FEFFE000 - FFFFF000 Standard OpenHCD USB Host Controller * FEFFF400 - FFFFFF00 On board Ethernet Adapter * FEFFF800 - FFFFFF00 Standard Enhanced PCI to USB Host Controller * FEFFFC00 - FFFFFF00 Standard Enhanced PCI to USB Host Controller *I/O MappingI/O Address Owner Usage 0000h - 000Fh DMA 8237-1 * 0010h - 0017h COM 90020h - 0021h PIC 8259-1 *0022h - 0023h Indirect Access Registers (6117D configuration port)*002Eh - 002Fh Forward to LPC BUS0040h - 0043h Timer Counter 8254 * 0048h - 004Bh PWM counter 8254 * 004Eh - 004Fh Forward to LPC BUS0060h Keyboard / Mouse data port * 0061h Port B + NMI control port * 0062h - 0063h 8051 download 4k address counter * 0064h Keyboard/ Mouse status/ command port * 0065h WatchDog0 reload counter * 0066h 8051 download 8bit data port * 0067h WatchDog1 reload counter * 0068h - 006Dh WatchDog1 control counter * 0070h - 0071h CMOS RAM port * 0072h - 0075h MTBF control register * 0078h - 007Ch GPIO port 0,1,2,3,4 default setup * 0080h - 008Fh DMA page register * 0092h System control register * 0098h - 009Ch GPIO direction control *00A0h - 00A1h PIC 8259-2 * 00C0h - 00DFh DMA 8237-2 * 00E0h – 00EFh DOS 4G Page access * 0170h – 0177h IDE1(IRQ 15)01F0h – 01F7h IDE0 (IRQ 14) * 0220h – 0227h COM8 Forward to LPC BUS0228h – 022Fh COM7 Forward to LPC BUS0238h – 023Fh COM6 Forward to LPC BUS0278h – 027Fh Printer port (IRQ7, DMA 0) * 02E8h – 02EFh COM4 (IRQ 11) * 02F8h – 02EFh COM2 (IRQ3) * 0338h – 033Fh COM5 Forward to LPC BUS0376h IDE1 ATAPI device control write only register * 03E8h – 03EFh COM3 (IRQ 10) * 03F0h – 03F7h Floppy Disk (IRQ6, DMA2)03F6h IDE0 ATAPI device control write only register * 03F8h – 03FFh COM1 (IRQ 4) * 0480h – 048Fh DMA High page register * 0490h – 0499h Instruction counter register * 04D0h – 04D1h 8259 Edge / level control register * 0CF8h – 0CFFh PCI configuration port * DE00h – DEFFh On board LAN * FC00h – FC05h SPI Flash BIOS control register * FC08h – FC0Dh External SPI BUS control register *IRQ# Description Usage IRQ0 System Timer * IRQ1 Keyboard Controller * IRQ2 Cascade for IRQ8 – 15IRQ3 Serial Port 2 * IRQ4 Serial Port 1 * IRQ5 USB * IRQ6 USB * IRQ7 Printer Port * IRQ8 Real Time Clock * IRQ9 USB/ Ethernet 10/100M LAN * IRQ10 Serial Port 3 * IRQ11 Serial Port 4 * IRQ12 Mouse * IRQ13 Math Coprocessor * IRQ14 Hard Disk Controller#1 * IRQ15 Hard Disk Controller#2 *DMA# Description Usage DMA0DMA1DMA2 Floppy Disk ControllerDMA3DMA4DMA5DMA6DMA72.6 Watchdog TimerThere are two watchdog timers in Vortex86SX/DX CPU. One is compatible with M6117D watchdog timer and the other is new. The M6117D compatible watchdog timer is called WDT0 and the new one is called WDT1.We also provide DOS, Linux and WinCE example for your reference. For more technical support, please visit: /tech or download the PDF file:/tech/vortex86dx/2.7 GPIO (General Purpose Input / Output)40 GPIO pins are provided by the Vortex86SX/DX for general usage in the system. Each GPIO pin is independent and can be configured as input or output, with or without pull-up/pull-down resistors.We also offer DOS, Linux and WinCE example for your reference. For more technical support, please visit: /tech or download the PDF file:/tech/vortex86dx/2.8 SPI flash (Serial Peripheral Interface)As SPI Flash (Serial Peripheral Interface) offers many benefits including: reduced controller pin count, smaller and simpler PCBs, reduced switching noise, less power consumption, and lower system costMany of users may consider using a formatted SPI flash to boot for the system or emulate SPI flash as Floppy (A: Driver or B: Driver). Then you must know how to set for this condition in CMOS Setup and boot up under DOS 6.22, X-DOS, DR-DOS and Free DOS.For more technical support, please visit: /tech or download the PDF file: /tech/vortex86dx/2.9 PWM (Pulse-width modulation)Pulse-width modulation (PWM) of a signal or power source involves the modulation of its duty cycle, to either convey information over a communications channel or control the amount of power sent to a load.The popular applications of pulse width modulation are in speed control of electric motors, volume control of Class D audio amplifiers or brightness control of light sources and many other power electronics applications.The Vortex86DX SoC integrated 32 channels of PWM interface enabling the Automation, robotic industry to a New Age x86 SoC platform and we also offer the sample code of PWM which will guide the engineer to control the PWM functionality smoothly.For more inquire of this sample code that please contact our sales team or mail to:*************.tw3.0 IDE to SD (Micro-SD)Vortex86DX SoC also built-in simulation circuit to adapt SD to IDE in order to allow your system to recognize Micro-SD card as C: or D: DriverSD-1917: 44 pins IDE to SD Adapter is an ideal solution for industrial PC or embedded system and 44 pins IDE to SD Adapter can be easily installed on all Vortex86DX CPU boards. You or your customers just do the BIOS setting and use SD-1917 to connect IDE connector of Vortex86DX boards directly.For further inquiries of SD-1917, please contact ICOP sales team or mail to: *************.tw for your request.<BIOS setting>Get into the BIOS setup UtilityChoose Primary IDE Pin Select: SD cardPress “F10” to Save configuration changes and exit setupSD-1917SD-1917: /pddetail.aspx?id=125&pid=4C h a p t e r 33C h a p t e rDriver InstallationVGAThe Vortex86DX processor also uses external Display Card ““Volari™ Z9s” which is an ultra low powered graphics chipset with total power consumption at around 1-1.5 W. It is capable in providing VGA display output upto 1600x1200. With DVO interface, developers could easily connect flat Panel to support TFT and LVDS output.Please download the Driver: /sd/sd_download.aspLANThe Vortex86DX processor also integrated 10/100Mbps Ethernet controller that supports both 10/100BASE-T and allows direct connection to your 10/100Mbps Ethernet based Local Area Network for full interaction with local servers, wide area networks such as the Internet.The controller supports: Half / Full-Duplex Ethernet function to double channel bandwidth, auto media detection.Operating system supportThe SOM200RD-XI CPU module provides LAN drivers for DOS 6.22 Windows CE 5.0, CE 6.0, Windows 98, Windows XP Professional, Windows Embedded standard (XPE) and Windows 2000 (SP4).Please get the drivers from the Driver CD which attached with the standard packing ofSOM200RD-XI CPU module or please get it from DMP official website:/tech/vortex86dx/SOM200RD-XI CPU module also supports most of the popular Linux distributions, for more detail information, please visit DMP official website: /tech/vortex86dx/AppendixA. TCP/IP library for DOS real modeDSock is a TCP/IP library for DOS real mode, which is used by RSIP. It provides simple C functions for programmer to write Internet applications. ICOP also provide Internet examples using DSock: BOOTP/DHCP, FTP server, SMTP client/server, HTTP server, TELNET server, Talk client/server, etc.DSock provides a lot of example source code. Programmer can add Internet functions to their project easily and save development time. With a utility "MakeROM”, programmer also can make a ROM image to fit their application, those examples can be seen in the following Application systems: Mity-Mite Serial Server,Web Camera Tiny Server and RSIP Serial Server.DSock is free for All ICOP products using M6117D/Vortex86/Vortex86SX/Vortex86DX CPU and ICOP also provide the business version of DSock for those customers who are using other x86 CPUs.If you would like to use DSock or business version of DSock, Please mail to *************.tw or contact your regional sales.Please download the trial DSock software and Utilities from our website:/tech/dmp-lib/dsock/B. SOM200RD-XI & SOM200DX-DEV-XI SchematicSchematic information can help baseboard designer to optimize exactly how each of these functions implements physically. Designer can place connectors precisely where needed for the application on a baseboard designed to optimally fit a system’s packaging.Please contact or e-mail our regional sales to get SOM200RD-XI CPU module andSOM200DX-DEV-XI Schematic.C. BIOS Default settingIf the system cannot be booted after BIOS changes are made, Please follow below procedures in order to restore the CMOS as default setting.Press “End” Key, when the power onPress <Del> to enter the AMI BIOS setupPress “F9” to Load Optimized DefaultsPress “F10” to Save configuration changes and exit setupWarrantyThis product is warranted to be in good working order for a period of one year from the date of purchase. Should this product fail to be in good working order at any time during this period, we will, at our option, replace or repair it at no additional charge except as set forth in the following terms. This warranty does not apply to products damaged by misuse, modifications, accident or disaster. Vendor assumes no liability for any damages, lost profits, lost savings or any other incidental or consequential damage resulting from the use, misuse of, originality to use this product. Vendor will not be liable for any claim made by any other related party. Return authorization must be obtained from the vendor before returned merchandise will be accepted. Authorization can be obtained by calling or faxing the vendor and requesting a Return Merchandise Authorization (RMA) number. Returned goods should always be accompanied by a clear problem description.。