simatic

简明释义

英[sɪˈmætɪk]美[sɪˈmætɪk]

adj. 硅镁层的，硅镁带的

英英释义

单词用法

同义词

反义词

例句

1.Describe application of SIMATIC system, take the control system in the power station of Wuhan petrochemical works for example.

以武汉石油化工厂余热电站的控制系统为例，介绍SIMATIC系统的应用方法及效果。

2.This paper takes the communication between SIMATIC S7-300 and the computer as an example, puts forward the new idea of the usage of Visual Basic in serial communication.

本文以VB在西门子PLCS7-300与上位机通信中的应用为例，提出了VB在串行通信中一种新的应用方法。

3.The primary application areas of the SIMATIC RF182C module are in machine building, conveyor systems, assembly lines in the automotive and supplier industries as well as in ancillary assembly lines.

SIMATIC RF 182c模块的主要应用领域为汽车、供应行业以及配套生产线中的机械制造、输送系统和装配线。

4.The article introduced method of flexible parameter setting, in PLC of SIEMENS SIMATIC S7, by HMI Software WINCC, as with running monition on CRT of upper computer.

本文介绍了在SIEMENSSIMATICS7的可编程控制器中，通过HMI软件WINCC，在上位机的画面上进行运行监控的同时，完成柔性化参数设定的方法。

5.This paper presents the electrical design solution for the transformer dry system based on SIMATIC S7-200 PLC, and introduces partly design of control circuits and control programs.

提出了基于西门子S7-200PLC的变压器干燥系统的电气设计方案，介绍了部分控制电路及控制程序设计。

6.This paper introduce the application of Siemens digital direct current timing device (6ra70) and program logical controller (SIMATIC S7-300) in piling bed electromagnet for the first time.

该文介绍了西门子全数字直流调速装置(6ra70)和可编程逻辑控制器(SIMATICS7- 300)首次在码垛电磁铁系统中的应用。

7.Combined with the properties of the PLC in SIMATIC S5-115U type and the requirement of the JDC rolling mill system, the application of the JDC rolling mill system was introduced.

结合SIMATICS5- 115u型PLC的特点以及钼业公司轧机系统的特殊要求，介绍了PLC在钼业公司轧机系统中的应用。

8.The primary application areas of the SIMATIC RF182C module are in machine building, conveyor systems, assembly lines in the automotive and supplier industries as well as in ancillary assembly lines.

SIMATIC RF 182c模块的主要应用领域为汽车、供应行业以及配套生产线中的机械制造、输送系统和装配线。

9.Through introduction to the application of Siemens SIMATIC S7 to cement production, the paper sums up the application experience and problems to be noticed.

文章通过介绍西门子SIMATICS7系列产品在水泥工程项目上的应用过程，总结了该系列产品的应用经验，提出了应用中应注意的问题。

10.The new factory automation system uses simatic 西门子自动化系统 to enhance production efficiency.

新的工厂自动化系统使用simatic 西门子自动化系统 来提高生产效率。

11.We installed simatic 西门子自动化系统 controllers to manage the assembly line.

我们安装了simatic 西门子自动化系统 控制器来管理装配线。

12.The simatic 西门子自动化系统 software allows for remote monitoring of equipment.

该simatic 西门子自动化系统 软件允许对设备进行远程监控。

13.Using simatic 西门子自动化系统, we can easily integrate different machines into a single network.

使用simatic 西门子自动化系统，我们可以轻松将不同的机器集成到一个网络中。

14.The training program covers the fundamentals of simatic 西门子自动化系统 programming.

培训项目涵盖了simatic 西门子自动化系统 编程的基础知识。

作文

In the world of automation and industrial control, the term simatic (西门子自动化控制系统) has become synonymous with reliability and innovation. Developed by Siemens, simatic represents a series of programmable logic controllers (PLCs) and automation systems that are widely used in various industries for process control and manufacturing. Understanding the significance of simatic is essential for anyone involved in engineering or automation, as it plays a crucial role in optimizing production processes and ensuring efficiency. The evolution of simatic began in the late 1960s when Siemens introduced the first PLC, which revolutionized the way industrial processes were controlled. Prior to the advent of PLCs, control systems relied heavily on relay-based technology, which was not only cumbersome but also prone to errors. With the introduction of simatic, engineers could program complex control sequences using simple software, leading to increased flexibility and reduced downtime in manufacturing operations. One of the key features of simatic is its modularity. This allows users to customize their automation systems according to specific needs, making it suitable for a wide range of applications, from small machines to large-scale production lines. The ability to easily integrate additional modules and components into the simatic system enables businesses to adapt to changing market demands without significant overhauls of their existing infrastructure. Moreover, simatic systems are designed with advanced communication capabilities, allowing them to connect seamlessly with other devices and systems within a factory. This connectivity is crucial for implementing Industry 4.0 concepts, where data exchange between machines and systems leads to smarter and more efficient manufacturing processes. By utilizing simatic technology, companies can gather real-time data, monitor performance, and make informed decisions to enhance productivity. Another important aspect of simatic is its focus on safety and reliability. In industrial environments, the stakes are high, and any failure in the control system can lead to costly downtimes or even accidents. Siemens has incorporated robust safety features into simatic systems, ensuring that they can operate under various conditions while minimizing risks. This commitment to safety has made simatic a preferred choice for many industries, including automotive, food and beverage, and pharmaceuticals. As technology continues to advance, the future of simatic looks promising. With the rise of artificial intelligence and machine learning, there is potential for simatic systems to become even smarter, enabling predictive maintenance and automated decision-making processes. Companies that embrace these advancements will likely gain a competitive edge in the market. In conclusion, the term simatic encapsulates a significant advancement in the field of industrial automation. Its impact on manufacturing processes cannot be overstated, as it has transformed how industries operate by providing reliable, flexible, and intelligent control solutions. For anyone looking to understand modern automation, grasping the concept of simatic is essential, as it represents the backbone of many successful industrial operations today.

在自动化和工业控制的世界中，术语simatic(西门子自动化控制系统)已成为可靠性和创新的代名词。由西门子开发的simatic代表了一系列可编程逻辑控制器（PLC）和自动化系统，这些系统在各个行业中广泛用于过程控制和制造。理解simatic的重要性对于任何参与工程或自动化的人来说都是至关重要的，因为它在优化生产过程和确保效率方面发挥着关键作用。 simatic的演变始于20世纪60年代末，当时西门子推出了第一台PLC，这一革命性技术改变了工业过程的控制方式。在PLC出现之前，控制系统严重依赖于继电器技术，这不仅笨重，而且容易出错。随着simatic的引入，工程师可以使用简单的软件编写复杂的控制序列，从而提高灵活性并减少制造操作中的停机时间。 simatic的一个关键特性是其模块化。这使用户能够根据具体需求定制他们的自动化系统，使其适用于从小型机器到大型生产线的广泛应用。将额外模块和组件轻松集成到simatic系统中的能力，使企业能够在不对现有基础设施进行重大改造的情况下，适应不断变化的市场需求。 此外，simatic系统设计具有先进的通信能力，使其能够与工厂内的其他设备和系统无缝连接。这种互联性对于实施工业4.0概念至关重要，机器和系统之间的数据交换导致更智能、更高效的制造过程。通过利用simatic技术，公司可以收集实时数据，监控性能，并做出明智的决策，以提高生产力。 simatic的另一个重要方面是其对安全性和可靠性的关注。在工业环境中，风险很高，控制系统的任何故障都可能导致昂贵的停机时间甚至事故。西门子在simatic系统中融入了强大的安全功能，确保它们在各种条件下运行，同时将风险降至最低。这种对安全的承诺使simatic成为许多行业的首选，包括汽车、食品和饮料以及制药。 随着技术的不断进步，simatic的未来看起来充满希望。随着人工智能和机器学习的兴起，simatic系统有潜力变得更加智能，从而实现预测性维护和自动决策过程。那些拥抱这些进步的公司将可能在市场上获得竞争优势。 总之，术语simatic概括了工业自动化领域的重要进展。它对制造过程的影响不可低估，因为它通过提供可靠、灵活和智能的控制解决方案，彻底改变了工业的运作方式。对于任何希望理解现代自动化的人来说，掌握simatic的概念至关重要，因为它代表了当今许多成功工业运营的支柱。