Application of automated control systems in professional activities. Automated process control system engineer: job duties of an automated process control system engineer Asu decoding specialty

General manager

companies _________________

I. O.F.

"___" _________ 200__

Job description
Specialistadepartment of automated control systems

I. General Provisions

Technical characteristics, design features, purpose and modes of operation of the main and component equipment, rules for its technical operation, technology of automated information processing;

Network technologies for the use of computer technology and telecommunications;

Types of technical data carriers, rules for their storage and operation;

The procedure for the development of a regulatory and methodological base for information and computing systems;

Prospects and directions for the development of computer technology;

Advanced domestic and foreign experience in the use of computer technology, communications and communications;

II. Job responsibilities

2.1. Participates in the preparation of proposals for the selection of the main composition of electronic computing equipment, in their justification and agreement with the heads of the relevant departments.

2.2. Carries out work on the installation, debugging, pilot testing and commissioning of automated control system (ACS) complexes, to ensure the smooth operation and maintenance of computer networks and communication equipment, support the system software of computing facilities and applied software.

2.3. Timely eliminates malfunctions arising during the operation of computer equipment, maintenance of standard programs. In case of unsuitability of the peripheral equipment, it timely replaces it with a reserve one.

2.4. Analyzes the causes of system failures, develops measures to improve the reliability of the automated control system, expand the scope of its application, modernize the applied technical means and equipment of the automated control system.

2.5. Timely corrects the mistakes made by users when working with the database of this 1C: Enterprise.

2.6. Compiles lists of PCs and peripherals on a quarterly basis.

2.7. Performs routine maintenance on database synchronization on a daily basis.

2.8. Timely makes the necessary amendments and additions to the existing LAN schemes.

2.9. Participates in the maintenance of network equipment.

2.10. Teaches users how to work in the network, keep archives; answers users' questions related to networking.

2.11. Draws up instructions for working with network software and brings them to the attention of users, gives recommendations for training.

2.12. Carries out orders, instructions, one-time service assignments of the higher management.

III. A responsibility

4.1. The system administrator is responsible for:

Improper performance or non-performance of their official duties, provided for by this job description, within the limits determined by the labor legislation of the Russian Federation;

Offenses committed in the course of carrying out their activities within the limits determined by the administrative, criminal and civil legislation of the Russian Federation;

Infliction of material damage - within the limits determined by the labor and civil legislation of the Russian Federation.

4.2. The system administrator is personally responsible for:

Safety of received and registered information;

Proper use of entrusted equipment;

Compliance with safety regulations, operating instructions for equipment and inventory.

Head of Automated Control Systems Department:

____________________/AND. OF / "__" __________ 200__

I. General Provisions

1. An engineer for automated production control systems belongs to the category of specialists.

2. For the position:

An engineer for automated production management systems is appointed a person who has a higher professional (engineering and economic or technical) education without presenting requirements for work experience or secondary vocational (engineering and economic or technical) education and work experience in the position of a category I technician for at least 3 years or other positions filled by specialists with secondary vocational (engineering and economic or technical) education, at least 5 years.

An engineer for automated production management systems of the II category is a person who has a higher professional (engineering and economic or technical) education and work experience as an engineer for automated production management systems or other engineering and technical positions replaced by specialists with a higher professional (engineering and economic or technical) education, at least 3 years;

An engineer for automated production control systems of the 1st category - a person who has a higher professional (engineering and economic or technical) education and work experience as an engineer for automated production management systems of the II category for at least 3 years.

3. Appointment to the position of an engineer for automated production management systems and release from it is made by order of the director of the enterprise on the proposal of the head of the automated production management system.

4. An engineer for automated production control systems should know:

4.1. Resolutions, orders, orders, methodological and regulatory materials on the organization of automated production control systems.

4.2. Prospects for the development of the enterprise.

4.3. Organization of economic planning and operational regulation of production.

4.4. The structure of the enterprise, production and functional links between its departments.

4.5. Tasks and content of the automated control system.

4.6. The procedure for the development of projects of the automated control system and its subsystems, technical specifications, technical and working projects.

4.7. Economic and mathematical methods.

4.8. Foundations of the theory of economic cybernetics.

4.9. Computer facilities, communications and communications.

4.10. The order of setting tasks, their algorithms.

4.11. Methods for determining the economic efficiency of the implementation of automated control systems.

4.12. Standards for a unified system of organizational and administrative documentation.

4.13. The procedure for the development and execution of technical documentation.

4.14. Fundamentals of economics, organization of production, labor and management.

4.15. Fundamentals of Labor Law.

4.16. Labor protection rules and regulations.

5. An engineer for automated production control systems reports directly to the head of the department of automation and mechanization of production processes.

6. During the absence of an engineer for automated production management systems (vacation, illness, etc.), his duties are performed by a person appointed in accordance with the established procedure. This person acquires the corresponding rights and is responsible for the proper performance of the duties assigned to him.

II. Job responsibilities

Engineer for automated production control systems:

1. Performs work on the design and implementation of automated production control systems (ACS) based on the use of a set of economic and mathematical methods, modern computing technology, communications and communications, elements of the theory of economic cybernetics.

2. Studies the system and methods of management and regulation of the enterprise, its production and functional divisions, determines the possibilities of formalizing the elements of the current system and the feasibility of transferring the corresponding processes to an automated mode.

3. Prepares the necessary data and participates in the preparation of technical specifications for the design of the automated control system and its individual stages and subsystems, in the development of technical and working projects.

4. Formulates the setting of tasks, performs work on their algorithmicization, identifies the possibilities of typing solutions of individual elements of the system, prepares proposals for the use of standard blocks in the design of automated control systems and participates in their creation.

5. Examines the automated production control systems developed by design organizations and operating at other enterprises in order to use the best experience in the design and operation of automated control systems.

6. Takes part in the work to improve the workflow at the enterprise, formulates the requirements for the content and construction of technical, organizational and administrative documentation used in the automated production control system.

7. Develops technological schemes for processing information on the established tasks of the automated control system, taking into account the organizational and technical support for all subsystems.

8. Prepares drafts of methodological materials, instructions and other technical documentation related to the creation and use of funds for information use of automated control systems.

9. Participates in the debugging, trial operation and stage-by-stage commissioning of the complex of technical means of the automated control system.

11. Studies the causes of failures and violations in the system, develops proposals for their elimination and prevention, for improving the quality and reliability of the automated control system.

12. Provides methodological assistance to the divisions of the enterprise in the preparation of data for the automated control system, in the preparation of the necessary documents and decryption of information processed by computer technology.

III. Rights

An engineer for automated production control systems has the right to:

1. To get acquainted with the draft decisions of the management of the enterprise concerning its activities.

2. Submit for management's consideration proposals for improving the work related to the responsibilities provided for in this job description.

3. To inform the immediate supervisor of all deficiencies in the production activities of the enterprise (its structural divisions) identified in the course of fulfilling their duties and make proposals for their elimination.

4. Request information and documents necessary for the performance of his official duties from the heads of the enterprise departments and specialists personally or on behalf of the immediate supervisor.

5. To involve specialists of all (individual) structural divisions in solving the tasks assigned to him (if it is provided for by the provisions on structural divisions, if not, then with the permission of the management).

6. Require the management of the enterprise to assist in the performance of its duties and rights.

IV. A responsibility

An automated production control systems engineer is responsible for:

1. For improper performance or non-performance of their official duties provided for by this job description - within the limits determined by the current labor legislation of the Russian Federation.

2. For offenses committed in the course of carrying out their activities - within the limits determined by the current administrative, criminal and civil legislation of the Russian Federation.

3. For causing material damage - within the limits determined by the current labor and civil legislation of the Russian Federation.

The demand for ICS engineers in the labor market is growing for a number of explainable reasons. The Russian automation market is growing, automated systems are being improved, and the scope of application of automated process control systems is expanding. Today, an increasing number of technological and production processes are being automated. It is noted that the depreciation of fixed assets of most Russian industrial enterprises is more than 60%. Obviously, outdated equipment is not able to compete with modern machines; therefore, production facilities need modernization and automation. Automation is becoming a prerequisite for increasing the productivity of industrial enterprises, and IT technologies are increasingly being implemented at the level of plant management of technological operations.

An increasing number of business leaders note positive changes associated with the implementation of automated control systems:

increasing production efficiency;
increasing production volumes;
growth in labor productivity;
an increase in the profitability indicator;
increasing competitiveness.

Automated production lines are replacing workers who manually performed most of the functions. Technological operations are now performed faster and with better quality, and working conditions have improved. Labor safety in production has increased, production risks have significantly decreased, because hazardous and harmful types of work are performed by machines. Loss, downtime, errors and personnel failures disappear. In addition, the quality of the products is improving and the competitiveness of the enterprise is growing.

It is obvious that modern enterprises using process control systems need competent and highly qualified personnel. There are 3 groups of personnel: operational, maintenance and repair. Operational personnel or users are operators, process operators, dispatchers and other specialists who make decisions in the process of managing the system. Operational or maintenance personnel are ICS engineers, electronics engineers, IT specialists, technicians and other employees who ensure the operation of the ICS. Repair personnel are repair engineers, electricians, workers and foremen who perform maintenance, repair, and installation of electrical equipment.

The role of process control engineers

The demand for ICS engineers is confirmed by the number of open vacancies at Russian labor exchanges. In May 2017, the average number of open vacancies in the profession of Automated Control Systems Engineer was more than 350. This means that among employing enterprises, the need for highly qualified personnel competent in the field of automated control systems remains stable. In addition, the profession of an ICS Engineer is considered highly paid, the highest salary for this specialist is in Moscow, followed by Chelyabinsk and Yekaterinburg. In open vacancies, employers indicated wages ranging from 25,000 to 75,000 rubles.

Job responsibilities of an ACS TP engineer:

Acceptance of technical solutions,
Software development,
Preparation of technical documentation,
Commissioning of system tools,
ACS technical support.

Each enterprise has its own requirements for the qualifications, responsibilities and experience of an automated process control system engineer. As a rule, an automated control system engineer, within the limits of his competence, performs work on the design, implementation and operation of an automated process control system, and also ensures the operability of the system. Carries out maintenance of automated process control systems, develops technical documentation, performs preventive and current repairs of devices, draws up an application for the selection of equipment. The APCS engineer is distinguished by general technical literacy, knowledge in the field of IT, regulatory and technical documentation, the main range of sensors, input-output systems, communication equipment, popular lines of APCS equipment.

The role of process control engineers and operating personnel in automated production remains extremely high. After all, the correct and effective functioning of the automated process control systems depends precisely on the competence, experience and qualifications of employees. High technical characteristics and wide functionality of hardware and software will remain unclaimed if the personnel cannot use all the capabilities of the APCS.

We invite an ACS TP engineer to work in our company

If you were looking for a reliable employer for employment as an ICS engineer, we suggest that you familiarize yourself with the current offers of Olaisis LLC in the Vacancies section. The main direction of our company is the development and implementation of modern automated process control systems (APCS) for a wide range of industries. Currently, in connection with the expansion of the staff, we invite specialists to our team, offering decent wages, good working conditions and the opportunity for professional growth.

At Olaisis LLC you can:

grow and develop in the field of automated control systems,
realize labor potential,
share professional experience,
suggest ideas and find solutions,
receive a decent reward.

An interesting job, new projects, professional growth and achievements await you. The main value of the company "Olaysis" is competent specialists who are able to find solutions to non-standard and complex problems. For more than 10 years, our company has maintained a stable position in the Russian industrial automation market. We have successful experience in implementing large-scale and ambitious projects at enterprises of various industries. If you are interested in our offer and you want to know the details, then we are waiting for your resume by mail

Send your good work in the knowledge base is simple. Use the form below

Students, graduate students, young scientists who use the knowledge base in their studies and work will be very grateful to you.

Posted on http://www.allbest.ru/

MINISTRY OF EDUCATION AND SCIENCE OF THE VOLGOGRAD REGION

STATE BUDGET EDUCATIONAL INSTITUTION

SECONDARY PROFESSIONAL EDUCATION

"VOLGOGRAD COLLEGE OF RESTAURANT SERVICE AND TRADE"

informatics

on the topic: "The use of automated control systems in professional activities"

Prepared by:

student of group 1-T-173

Buz Irina

Checked:

Teacher

VOLGOGRAD, 2012

Basic principles

Asu base

The functional part of the ACS

Automated control system (ACS)

A set of economic and mathematical methods, technical means (computers, communication facilities, information display devices, data transmission, etc.) and organizational complexes that ensure the rational management of a complex object (for example, an enterprise, a technological process). The most important goal of building any ACS is a sharp increase in the efficiency of managing an object (production, administrative, etc.) based on an increase in the productivity of managerial labor and improving planning methods and flexible regulation of a controlled process. In the USSR, automated control systems are created on the basis of state plans for the development of the national economy.

Basic principles

control automated system array

The principle of new tasks. ACS should provide a solution to qualitatively new management problems, and not mechanize management techniques implemented by manual methods. In practice, this leads to the need to solve multivariate optimization problems based on economic and mathematical models of a large volume (scale). The specific composition of such tasks depends on the nature of the controlled object. For example, for machine-building and instrument-making enterprises, the tasks of operational scheduling and volumetric scheduling are usually the most important. The decisive effect is achieved when all shift tasks, both production and supporting (for example, for material and technical supply, etc.), are precisely coordinated in time, the optimal volumes of batches of products are determined and the equipment load is optimized. Similar tasks arise in construction. In some cases, the tasks of the technician are highlighted. preparation of production, management of design and construction works. In transport, the optimization of routes and timetables, as well as loading and unloading operations, is of paramount importance. In the management systems of the industry, the optimal planning of the work of enterprises, the exact coordination of the timing of mutual deliveries, as well as the problems of the future development of the industry and the tasks of forecasting, are of paramount importance.

Asu base

Asu is based on the information base, technical base, software, organizational and economic base. The basis is a common part for all tasks solved by the automated control system.

The information base of the ACS is a collection of all data, located on computer storage media, necessary to automate the control of an object or process. Typically, the infobase is divided into three arrays: general, derivative and operational. The design of arrays and their fields (methods of placement on media, features of data interconnection within an array, specific data layout, etc.) is determined by the type of ACS and the general characteristics of the objects for which it is intended. However, it is advisable to keep the standard constructive structure of the information base for the general class of objects (for example, for machine-building enterprises). The general array unites data that are common to all tasks, the placement of which corresponds to a universal structure that is not focused on performing any one management function. The general array for a large object contains hundreds of millions of characters, takes up large volumes of storage devices and is not always convenient for use in each specific task that requires specialized information for its solution. This problem is aggravated by multiprogrammed data processing and insufficiently capacious random access memory devices, which presuppose the storage of many arrays in machine archives (tapes, edema, card indexes), functionally disconnected from the processors. In this regard, in actually functioning ACS, it becomes necessary to form derived arrays that reflect the specifics of the structure of the object, the features of the functions performed in each period, the frequency of repetition of various tasks and a number of other factors associated with the current operation of the system. All derived arrays are usually formed from a general array. Any stable change in the characteristics of the serviced object must be reflected in the general array. The operational array contains current information as well as intermediate results of calculations. It also contains primary information about the state of the serviced object, which is periodically received via communication channels or recorded on stand-alone media (punched tapes, punched cards, magnetic tapes, etc.). The processed and generalized data can then be entered into the derived and general arrays, or directly issued to the consumer.

The functional part of the ACS

The functional part of the ACS consists of a set of interrelated programs for the implementation of specific management functions (planning, financial and accounting activities, etc.). All tasks of the functional part are based on information arrays common for a given ACS and on common technical means. The inclusion of new tasks in the system does not affect the structure of the framework and is carried out using a typical information format for an automated control system and a procedural scheme. The functional part of the ACS is conventionally divided into subsystems in accordance with the main functions of object control. Subsystems, in turn, are divided into complexes containing sets of programs for solving specific control problems in accordance with the general concept of the system. The composition of the tasks of the functional part of the ACS is determined by the type of the controlled object, its state and the type of tasks it performs. For example, in the automated control system, an enterprise often distinguishes the following subsystems: technical preparation of production; product quality management; technical and economic planning; operational production planning; material and technical support; sales of products; financial and accounting activities; planning and placement of personnel; transport management; management of support services. The division of the functional part of the ACS into subsystems is rather arbitrary, since the procedures of all subsystems are closely interrelated and in some cases it is impossible to draw a clear boundary between different management functions (for example, between technical and economic planning, operational and production planning and logistics). The allocation of subsystems is used for the convenience of distributing work to create a system and for linking to the corresponding organizational links of the control object. The structure of the functional part of the ACS depends on the scheme of control procedures, which determines the interconnection of all control elements and covers automated, partially mechanized and manual procedures. The functional part is more mobile than the base, and allows changing the composition and setting of tasks, provided that a standard interface with the basic elements of the system is provided.

List of used literature

http://slovari.yandex.ru

http://topref.ru

http://www.bibliofond.ru

http://www.spbk-spo.com

Posted on Allbest.ru

...

TECHNICIAN ON AUTOMATED CONTROL SYSTEMS OF TECHNOLOGICAL PROCESSES (TECHNICIAN-DESIGNER-SYSTEMOTECHNIK)

Job responsibilities. Participates in the design and implementation of automated control systems (ACS) and automated control systems (ACS) for various purposes under the methodological guidance of a systems engineer. Independently develops certain types of support for simple control or monitoring systems based on modern computer technology, instruments and automation equipment. Completes and prepares design documentation for ACS and ACS, collects initial data on the surveyed control objects and carries out their primary processing. On the instructions of the systems engineer, he performs prototyping of the system under test and participates in testing the prototype. Makes changes to the design documentation and draws up notices of the changes made. Takes part in setting up the components of the systems under development and conducting their trial operation. Prepares and conducts acceptance and metrological tests of the developed systems with the registration of test reports.

Should know: laws and other regulatory legal acts of the Russian Federation, methodological and regulatory documents concerning the design of automated information processing and process control systems; rules for the operation of computer technology, instruments and automation equipment used in control systems; rules for the technical operation of a complex of technical means and technological equipment of the systems being developed; standards and other regulatory documents governing the procedure for developing documentation for ACS and ACS; fundamentals of economics and labor organization; fundamentals of labor legislation; labor protection and fire safety rules; internal labor regulations.

Qualification requirements.

Technician for automated control systems of technological processes (technician-designer-systems engineer) of the I category: secondary vocational (technical) education and work experience as a technician for automated control systems of technological processes (technician-designer-systems engineer) of the II category for at least 2 years.

Technician for automated control systems for technological processes (technician-designer-systems engineer) of the II category: secondary vocational (technical) education and work experience as a technician for automated control systems for technological processes (technician-designer-system engineer) for at least 2 years.

Technician in automated control systems for technological processes (technician-designer-systems engineer): secondary vocational (technical) education without any requirements for work experience.

It might be helpful to read:

Application of automated control systems in professional activities. Automated process control system engineer: job duties of an automated process control system engineer Asu decoding specialty

The role of process control engineers

We invite an ACS TP engineer to work in our company

Send your good work in the knowledge base is simple. Use the form below

Similar documents

TECHNICIAN ON AUTOMATED CONTROL SYSTEMS OF TECHNOLOGICAL PROCESSES (TECHNICIAN-DESIGNER-SYSTEMOTECHNIK)