MAC 800培训

chroma 8000培训资料Chroma 8000培训资料是一套精心编制的培训材料，它是为提升个人技能和专业知识而设计的。

这套培训资料包括了丰富的内容和详细的解析，帮助学员在各个领域取得更好的成绩。

首先，Chroma 8000培训资料致力于提供全面的培训内容。

它涵盖了多个学科领域，包括技术、管理、市场营销和人际关系等。

无论你是从事IT行业、金融领域还是销售市场，这套培训资料都能提供你所需的相关知识和技能。

其次，Chroma 8000培训资料还特别注重实践应用。

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此外，Chroma 8000培训资料还采用了简明扼要的语言和清晰明了的结构。

每个章节都按照逻辑顺序组织，从基础知识开始引导学员逐步深入。

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无论你是职场新人还是有经验的专业人士，Chroma 8000培训资料都值得你的学习和探索。

XDC800系统培训纲要1、X DC800系统的硬件结构（半天）了解XDC系统控制柜的基本结构；了解控制站、操作站和I/O站的区别和联系；掌握XCU控制器的编号规则，XCC_net I/O站管理模块的编号规则和I/O模块的地址分配规则；了解CCNetDrv.ini配置文件的内容和含义；掌握常用I/O模块的接线端子分配和接线方法。

2、X DC800系统的网络结构（半天）了解XDC800系统网络类型、网络IP地址以及网络与站点之间的关系。

3、X DC800系统操作员站的安装（半天）掌握XDC2.0软件的安装、网卡IP的设置过程、操作员站的配置过程。

4、X DC800仿真系统系统的安装与使用（半天）了解虚拟网卡的配置过程，掌握虚拟XCU的开通方法，学会利用虚拟控制器进行控制组态仿真。

5、X DC800控制软件“系统配置”软件详解（一天）通过“系统配置”软件，掌握站点配置、点目录编辑、项目路径设置、历史数据收集配置以及报表数据库的建立。

6、X DC800 “XCU组态”软件常用组态功能块详解（两天）了解常用组态模块的功能、结合实际说明使用方法。

7、X DC800 “图形生成”软件的使用与动态链接（一天）了解操作界面的制作技巧；掌握图形对象与控制组态间的动态链接；学会作按钮、报警、棒图等8、X DC800系统控制界面的操作（一天）例举实例说明控制画面的操作方法。

9、练习1：制作一个电动门的控制组态，并且可在操作画面上进行操作（半天）结合实际制作电动门控制组态，以熟悉点目录编辑、图形动态链接和控制组态过程和关联性。

10、练习2：制作一个单回路控制组态，并且可在操作画面上进行操作（半天）11、练习3：制作两台互为备用的电机组态，备用投入/解除可安全切换，并且可在操作画面上进行操作（半天）12、上机实习（一天）1。

Distributed Control Systems have been deployed extensively around the world in process and manufacturing industries to achieve productivity improvements by reducing process variability, increasing production availability, and automating tasks. These improvements were gained by focusing primarily on process control. In the 1990’s ABB led the evolution of control system technology by introducing Open Control Systems. OCSs aimed to “open up” the control system environment, making information from the plant floor available to other applications, and allowing OCS systems to interface with other applications principally related to keeping the process running smoothly. It also marked the first major incorporations of “off-the-shelf” technology to replace proprietary versions of Operator Stations, Engineering Stations, and the like.However, the focus was still primarily on the controlling the process. Today, to deliver additional productivity gains it is necessary to extend the reach of the automation system beyond the world of process control. As mentioned above the traditional DCS / OCS functionality has been the Operations, Engineering, and logic to achieve consistent and predictable Process Control. The Operations functions were focused on the needs of the production operator. Interfaces to applications and devices external to the control system with their own data storage typically were collected and duplicated in the control system database to provide accessibility for reporting and operations needs. This approach was found to be difficult to engineer and maintain. The practice of having information stored in multiple locations brought uncertainty of data integrity as the individual software applications were advanced at asynchronous paces and theWith the introduction of System 800xA, ABB, redefines the standard for control system functionality by extending the reach of the automation system. From an information access and integration perspective the IndustrialIT system incorporates functionality far beyond process control. Specifically, the system incorporates Process Control, Production Management, Safety, Discrete Logic and Sequence Control, Advanced Control, Information Management, Smart Instrumentation, Smart Drives and MCCs, Asset Management, and Document Management capabilities in a singular virtual database environment. The Aspect Object technology inherent to IndustrialIT provides the unifying platform base allowing each application to maintain data in its source application, while providing association to a production asset. This allows access to the data directly from it source in the context of the production asset without the need to know where the data is coming from, and without concern about data integrity and concordance. The ability to extend control engineering standards to incorporate and maintain connections to the wealth of IndustrialIT applications we have discussed, and to deploy these standards efficiently across all like instances is one of the unique characteristics of ABB’s solution.This elegant solution addresses the engineering and maintenance issues of past solutions.This new IndustrialIT Extended Automation System 800xA provides for a single operations, engineering, and information management environmentMeet the Aspect Integrator Platform, a revolutionary open architecture for managing, optimizing every link in the enterprise value chain. This powerful Microsoft Window-based architecture sets the standard for every IIT product from ABB and its partners. The Aspect Integrator Platform is a software package that integrates all Industrial IT enabled products via their Aspect Objects, irrespective of where they may reside.In the grand scheme of IndustrialIT, the information required to support each plant component and each business process is defined as an Aspect Object. An Aspect Object contains all the characteristics – or Aspects – of the item in question. For an electric motor, this could include design drawings, control diagrams, maintenance information, location, quality information and performance trends, even a live video of it in action. But an Aspect Object can also be finished products, raw materials, sales and orders. The key to Aspect Object technology is, however, that it is much more than real-time information. It also defines a set of software functionsb so that everyone in your world can find, use and communicate this information via standard PCs running ordinary applications like Microsoft Word and Excel. The portfolio of product suites that take advantageof Aspect Object functionality is growing all the time. Integrating these products via their Aspect Objects is the task of the Aspect Integrator Platform (AIP). The AIP is thus one of the key elements in the entire IndustrialIT architecture.A particular user configuration is created by dynamically linking a set of Aspect Objects as software components in drag-and-drop fashion.•…Extended Automation System 800xA.•800xa consists today of a mature and comlete producy portfolio intended for all type of industrial automation.•It includes;•Advanced and the latest operator and engineering workplaces •Powerful and flexible controllers and I/O•support for all major standard Fieldbuses on the market•and also products like; (click)•Information management•Asset optimization•Batch management•Safety products. ABB is actually the only supplier, who can compine application for Process Automation AND Safety in the same controller.The solution is Aspect Objects!We do not create one single data model, or object model, to represent the real world object in our systemInstead we model one aspect at a timeThus, the model object is not an object in a strict sense, but rather a container of references to different objects that implement the aspectsThe aspects are implemented by different software systems each of which stores, manages and presents its information in its own optimal wayThese software systems are referred to as aspect systems.The result is a system of integrated but independent software systems ...The solution is Aspect Objects!We do not create one single data model, or object model, to represent the real world object in our systemInstead we model one aspect at a timeThus, the model object is not an object in a strict sense, but rather a container of references to different objects that implement the aspectsThe aspects are implemented by different software systems each of which stores, manages and presents its information in its own optimal wayThese software systems are referred to as aspect systems.The result is a system of integrated but independent software systems ...管理方式A very natural way to represent relations between different entities is to organize them in a structure.Depending on from which perspective we look at it, the same entity fits naturally in several different structures.For example, a certain piece of process equipment has a certain position in a functional structure depending on the functional breakdown of the plant. It is also physically placed somewhere, and thus it has a place in a location structure. The same piece of equipment may currently be allocated to a certain production batch, so it belongs in the batch structure. Because it is used to produce a certain product, it fits in a product structure. And so on.Server software can, from an architectural perspective, run on any (server) node (physical PC) in the system. Multiple server software types can be hosted on a single PC. Server software classifications include:■Aspect: Run the intelligence in the system, including theaspect directory and other services related to objectmanagement, names, security, etc.Connectivity: Provide access to controllers and other data sources. Several groups of connectivity servers may exist in a system, each serving one set of data sources. Examples of services that run ona connectivity server are OPC related services (DA, AE,and HDA), and SysMsg.Application: Run various types of system applications, for example Batch Management, Asset Optimization, Simulationand Optimization, and Information Management.23The growing deployment of peripheral applications related to productivity improvement vastly increases the amount of data available to improve productivity in the plant, utility, or mill. Yet, without the proper context, plant personnel can be exposed to information overload.The 800xA system gathers information from multiple plant sources and transforms it into relevant information for a diverse set of users such as maintenance technicians, process engineers, production managers, or plant operators. The 800xA architecture provides:■ Operators: An environment to allow them to run the plant in a safe way and produce products in required quantity and quality.■ Operations Managers: An environment to let them know what is the return on investment, risk, uptime, and production and maintenance costs at any given time.■ Engineers: An environment that will allow them toimplement specification changes into their running plant in the shortest time with lowest cost at the lowest risk.■ Maintenance and Service Personnel: Information to ensure maximum availability of plants and applications.S500 is a low-end I/O within ABB and will be introduced in Control IT. Planning on-going.•AC 800M HI controller provides ability to combine safety critical loops with control applications to facilitate maximum utilization of process equipment within defined safety boundaries during changingproduction modes.32Avoiding erosion of information and enabling reuse of knowledge can help improve the performance of all plants by promoting more intelligent design and application enhancement800xA provides a Single source of truth for all engineering and plant information that enables the intelligent design process and promotes Operational excellence through the reuse best practices.From the Engineering Workplace, users have access to all system information required to install, configure, operate, and maintain the system. This includes the ability to configure and diagnose Hart, Profibus , and FF devices, as well as remote I/O systems.The System-wide single point of data entry ensures data consistency, eliminates duplication of effort, and guarantees the information is accurate and up to date. Plant and device documentation can also be directly accessed from within the engineering environment.System 800xA provides a flexible, distributed engineering environment through the use of application servers. These servers manage project data and make it accessible to on-site connected users or isolated off-site engineering environments.In a multi-user on-site environment, a variety of engineering tasks may be performed on a target system simultaneously. The results are applied to the target system automaticallyvia the application servers.In an off-site environment, engineering tasks may be performed off-line in an isolated manner from other users. When the off-site tasks are completed, the user modifications can be applied to the on-line system through the application server’s import/export features.The import/export feature allows for selective transfer of configuration data between systems. In addition, it is possible to compare configuration data between the different systems and create reports on the differences.Process Portal faceplates have a standardized look and feel throughout. No matter which control system is being used, the operator always has a consistent presentation of the object. The operator will know exactly how to proceed in all situations.Faceplates have three different appearances. The minimal view where the most important information occupies as little space as possible. The normal view shows more links and graphics. The extended view provides full access to tuning and adjustable parameters. The standard set of faceplates can be used as is or modified. It is very easy to customize the faceplates. This standardized faceplate frameworkreduces configuration time to a minimum.A scenario showing how you can use the alarm management in a scenario. The scenario starts with that you get a alarm via sound. You go to your station and ou see that the alarm is in area AR14, you click on the alarm band to get to the complete alarm list of the area. If you are not satisfied with what you see, you can easily sort/filter the list. You do not know what to do to you click on the premade instructions for this alarm. You realize what you want to do and clicks on the alarm line to bring up the faceplate. You acknowledge the alarm and tune your loop and navigate directly to the process graphics for the area. Before you end you enter what you have done in the Alarm Comment.Each CFA within 800xA, including Batch Management, has integrated features from the core system platform. This makes validation of the entire system as simple as possible. Core platform features include:•Security / Access Control•Authentication•Versioning and Synchronization•Electronic-Signatures•Signature to Record linking•Audit Trail•Native Language supportAdditionally, Batch Management continues to provide recipe life-cycle management with support for versioning of recipe procedures. Batch Management also provides a difference report view so that the user canreadily compare two versions of a recipe.52。

全胜800CTP中文操作手册全胜800CTP中文操作手册nhk.taobscreeht20XX年-09-30731-01730A-ZH 修订版A全胜400/800制版机tp://ao.型号TST用户指南简体中文com全胜800CTP中文操作手册http://screenhk.taobao.com全胜800CTP中文操作手册版权所有Kodak，20XX年。

保留所有权利。

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您可以从PDF 文件中复制此类文档后在内部使用。

但必须复制PDF 文件的全部内容。

商标Kodak 和克里奥是Kodak 的商标。

Acrobat、Adobe、Distiller、Illustrator、Photoshop 和PostScript 是Adobe Systems Incorporated 的商标。

Hexachrome、*****、***** Goe、***** Hexachrome 和***** *****G SYSTEM 归Pantone, Inc.所有。

PEARL、PEARLdry、PEARLgold、PEARLhdp 和PEARLsetter 是Presstek, Inc. 的注册商标。

XEROX 是XEROX *****TION 的商标。

FCC 符合性本文档中提及的任何Kodak 设备均符合FCC 规则第15 部分关于 A 类数字设备的要求。

在住宅区操作Kodak 设备可能会对广播和电视接收造成无法接受的干扰，需要操作员采取必要的步骤来排除干扰。

内部编号731-01730A-ZH 修订版A修订时间20XX年-09-30http://screenh根据法规(EC) 第1907/20XX年号(REACH) 的第59(1) 条，有关候选列表中包含的物质的存在信息，请咨询/go/REACH。

k.REACHtaobao.Apple、AppleShare、AppleTalk、iMac、ImageWriter、LaserWriter、Mac OS、Power Macintosh 和TrueType 是AppleInc. 的注册商标。

Mac命令行像处理技巧调整像大小和格式转换在使用Mac终端命令行操作中，我们经常需要对图片进行处理，如调整大小和格式转换。

下面介绍几个常用的命令行操作，帮助您轻松处理图片。

一、调整图片大小1. 使用sips命令调整图片大小图片大小调整可以使用sips命令完成。

打开终端，并进入存放图片的目录，然后使用以下命令：```sips -Z 800 image.jpg```上述命令将image.jpg图片调整为800像素宽，高度按比例自动调整。

您可以根据需要修改800为您想要的具体数值。

2. 使用convert命令调整图片大小另一种调整图片大小的方式是使用convert命令，您需要先安装ImageMagick软件。

安装完成后，使用以下命令进行图片大小调整：```convert image.jpg -resize 800x600 result.jpg```上述命令将image.jpg图片调整为800像素宽，600像素高，并保存为result.jpg。

您可以根据需要修改具体的宽高数值和保存的文件名。

二、格式转换1. 使用sips命令进行格式转换sips命令也可以完成图片格式转换。

使用以下命令将图片从JPEG 格式转换为PNG格式：```sips -s format png image.jpg --out result.png```上述命令将image.jpg图片转换为result.png，并保存为PNG格式。

您可以根据需要修改输入图片的文件名、输出图片的文件名，以及转换的格式。

2. 使用convert命令进行格式转换使用convert命令进行格式转换同样需要安装ImageMagick软件。

安装完成后，使用以下命令将图片从JPEG格式转换为PNG格式：```convert image.jpg result.png```上述命令将image.jpg图片转换为result.png，并保存为PNG格式。

注意，convert命令会根据文件扩展名自动进行格式转换。

AC800M培训教程硬件部分(重点)一、教学内容本节课我们将学习AC800M培训教程的硬件部分，主要内容包括：AC800M硬件的组成、各部分的功能、安装和接线方法。

二、教学目标1. 让学生了解并掌握AC800M硬件的组成和各部分的功能；2. 学会AC800M硬件的安装和接线方法；3. 培养学生动手操作能力和团队协作能力。

三、教学难点与重点重点：AC800M硬件的组成、各部分的功能、安装和接线方法。

难点：硬件安装的细节处理，接线的正确性。

四、教具与学具准备教具：AC800M培训教程硬件设备一套；学具：学生分组，每组一套AC800M硬件设备。

五、教学过程1. 实践情景引入：介绍AC800M硬件设备在工业生产中的应用，引出本节课的学习内容。

2. 知识讲解：讲解AC800M硬件的组成、各部分的功能。

3. 示范演示：教师演示AC800M硬件的安装和接线过程，强调安装的细节和接线的正确性。

4. 学生动手操作：学生分组进行硬件安装和接线实践，教师巡回指导。

5. 随堂练习：学生完成AC800M硬件的安装和接线，教师检查并给予评价。

六、板书设计板书内容主要包括：AC800M硬件的组成、各部分的功能、安装和接线方法。

七、作业设计1. 描述AC800M硬件的组成和各部分的功能；2. 简述AC800M硬件的安装和接线方法；3. 完成AC800M硬件的安装和接线，拍照。

八、课后反思及拓展延伸1. 反思本节课的教学效果，针对学生的掌握情况，调整教学方法；2. 拓展延伸：研究AC800M硬件在其他领域的应用，提高学生的创新意识。

重点和难点解析一、教学内容本节课我们将学习AC800M培训教程的硬件部分，主要内容包括：AC800M硬件的组成、各部分的功能、安装和接线方法。

这些内容是理解和学习AC800M软件和实际应用的基础，因此需要特别关注。

二、教学目标1. 让学生了解并掌握AC800M硬件的组成和各部分的功能；2. 学会AC800M硬件的安装和接线方法；3. 培养学生动手操作能力和团队协作能力。

AC800M培训教程引言AC800M是ABB公司推出的一款高性能的自动化控制器，广泛应用于工业生产、能源、交通等领域。

为了帮助用户更好地了解和使用AC800M，我们特此编写了本培训教程。

本教程将从AC800M的基本概念、硬件结构、软件编程、通信配置等方面进行详细讲解，帮助您快速掌握AC800M的使用方法。

第一章AC800M基本概念1.1AC800M简介AC800M是ABB公司推出的一款高性能的自动化控制器，具有模块化设计、灵活的配置、强大的功能和良好的稳定性等特点。

它采用了高性能的处理器，支持多种通信协议，能够满足各种复杂工业控制需求。

1.2AC800M硬件结构AC800M硬件结构主要包括控制器、I/O模块、通信模块等部分。

控制器是AC800M的核心部分，负责处理输入信号、执行控制算法和输出控制信号。

I/O模块负责采集现场信号和输出控制信号，可以根据实际需求进行配置。

通信模块负责与其他设备进行通信，支持多种通信协议。

1.3AC800M软件编程AC800M软件编程主要包括控制器编程和HMI编程两部分。

控制器编程主要使用ABB公司的ControlBuilderM编程软件，支持IEC61131-3标准，包括LD、IL、FBD、SFC、ST等编程语言。

HMI编程主要使用ABB公司的WonderwareInTouch软件，支持图形化编程和脚本编程。

第二章AC800M硬件配置2.1控制器配置AC800M控制器配置主要包括CPU模块、电源模块、内存模块等。

CPU模块是控制器的核心部分，负责处理输入信号、执行控制算法和输出控制信号。

电源模块负责为控制器提供电源。

内存模块负责存储程序和数据。

2.2I/O模块配置AC800MI/O模块配置主要包括模拟量输入模块、模拟量输出模块、数字量输入模块、数字量输出模块等。

模拟量输入模块负责采集模拟量信号，如温度、压力等。

模拟量输出模块负责输出模拟量信号，如调节阀门开度等。

数字量输入模块负责采集数字量信号，如按钮、开关等。

AC800M FOR ABB TRAINING※在培训开始之前先请大家看一下下面这些问题，然后带着这些问题贯穿于整个培训过程。

1GSD文件如何导入跟组态2在Libraries如何创建Library又如何连接库；如何创建DATA types同时在里面至少写几个变量3什么叫子随父参数连接（子所要连接的参数是在父级中的参数跟变量）4如何创建Control Module Types类型，同父级；以及一个父级做另一个父级的子级时如何连接参数。

5如何创建硬件组态I/O 及里面变量的连接。

6硬件I/O和类似扩展的DP/DP COUPLE 等。

内部变量连接有什么特征能不能连每个块的参数吗?(正常连每个块的变量以及全局参数)。

7Applications里创建新的Application后如果更改名字则在同级programs下的TASK是否也要更改呢？第一篇第一篇：：项目概念章节第二篇：创建及硬件章节建立新的工程文件（new project）:单击新建工程图标显示如下：在上图的name处建立工程名字以及下面的存放地方。

最后单击确认ok! 默认的整个工程框架如下：1 如果选择EmptyProject则：2 如果选择Softcontroller则：选择新的控制器同时设计相关硬件及IP地址等：1. 更换与你当前MATCH的控制器:2 在Modulebus下创建所以你所需要的DI/DO;AI/AO 等硬件模块。

3. 安装其他连接部件如DP/DP coupler :导入GSD文件的方法？？？？？？？？？？？？？？？？？？？？由原来的GSD文件编译通过ABB专有的转换工具转换成ABB所能辨识的硬件文件：对于上面内部有很多需要设置的参数可以看相关帮助文本。

4. 对于TASKS用法跟设置：该内部默认有三个时间等级及：FAST ; NORMAL; SLOW ; 当然你也可以添加更多的时间等级。

比如这里我添加了一个叫qiuzhi的新的时间等级。

M A C800V2_简易操作说明(总1页)-CAL-FENGHAI.-(YICAI)-Company One1-CAL-本页仅作为文档封面，使用请直接删除MAC800简易操作采集12导联自动心电图：1、确认导联线与患者正确连接，按电源开关按钮开机，设备自动进入静息ECG 模式。

2、按F1键输入患者信息；可调整速度、增益、滤波。

3、屏幕上波形显示稳定后，按下ECG采集键，设备自动采集信号并生成报告.连续采集心电图1、确认导联线与患者正确连接，开机后系统处于静息ECG模式。

2、按F1键输入患者信息，可调整速度、增益、滤波。

3、通过导联键选择打印的导联，然后按下节律键，开始记录ECG。

4、按下停止键，停止ECG记录。

心律失常模式下采集心电图1、确认导联线与患者正确连接，开机后系统处于静息ECG模式，选择F6“更多”，F5“主菜单”，F2“心律不齐”。

2、在设备跳出的信息框中，输入患者数据，根据需要调整速度、增益、滤波等设置。

3、按下F1（启动记录）键启动记录，开始心律失常报告记录。

4、需要停止时，再次按下F1（停止记录）键，即可停止记录。

根据要打印的报告类型按下相应的功能键。

连接打印机打印心电图1、关机状态下，将心电图机与打印机通过USB接口相连。

2、采集一份静息心电图报告；或者从文件管理器中选择所需患者报告；3、按下屏幕底部对应的功能键“激光打印，外接打印机即可自动接收数据并打印出来。

通过SD卡保存PDF文件1、将SD卡插入MAC800心电图机2、采集ECG后选择保存ECG.3、在文件管理器中，选择需要导出的患者心电图文件。

4、在屏幕底部的相应功能按键中，选择“更多”，然后选择“导出”再选择“PDF”，患者数据就导出至SD卡上。

5、导出后将SD卡插入普通电脑，就可以看到PDF格式的高清心电图。

选择打印格式在屏幕下方寻找对应功能键“主菜单”——“系统设置”——“静息ECG设置”——连续按下3次“下一页”——“10秒心电图报告格式”：点开下拉式菜单，选择并确认所需要的打印格式，保存并退出。

MAC800心电分析系统
【结构】
心电分析系统由主机、7.2V可充电锂电池、电源电缆及附件(附件包括患者电缆/导线、肢体电极和胸电极一套)组成。

基本参数：分析频率：500或1000份/秒(sps)可选；存储：内部：最多100或300份数据，可选外部移动存储介质；对静息心电可选12SL分析；动态范围AC差分：±10mV、DC偏移：±300mV；共模抑制比：＞90dB；输入阻抗＞10MΩ@10Hz，带除颤器防护；分辨率：800×480，具有象素、波形滚动功能；定标电压：1mV，误差范围±5%；灵敏度/增益：2.5、5、10、20、40mm/m 【详细说明】
慧外秀中，心e相连
外接激光打印机，降低打印成本
PDF格式导出，无需专业软件
患者信息电子化管理
WiFi/LAN/串口/Modem多种网络连接方式
实现数据共享
灵活方式，改进工作流
与MUSE/Cardiosoft无缝链接
【注意事项】
大家在用药的时候，药物说明书里面有三种标识，一般要注意一下：
1.第一种就是禁用，就是绝对禁止使用。

2.第二种就是慎用，就是药物可以使用，但是要密切关注患者口服药以后的情况，一旦有不良反应发生，需要马上停止使用。

3.第三种就是忌用，就是说明药物在此类人群中有明确的不良反应，应该是由医生根据病情给出用药建议。

如果一定需要这种药物，就可以联合其他的能减轻不良反应的药物一起服用。

大家以后在服用药物的时候，多留意说明书，留意注意事项，避免不良反应的发生。

本文到此结束，谢谢大家!。