Programming and designing with Distributed
Safety in Simatic Safety Integrated Controllers
Objectives:
- Knowledge on using PLC Simatic S7 in F (FailSafe) versions used to perform tasks connected with safety functions
- Explanation of the concept of Safety Integrated and Distributed Safety in the Siemens Simatic family
- Introduction to the certified library „S7 Distributed Safety” and rules of creating safe programs illustrated with practical exercises
- Using ISO-EN standards connected with functional safety
- Overview of the safety functions available in converters and exercises with examples of uses
Get a taste of our courses:
Course type
Course level
Duration
Prerequisites
Location
See the laboratory
Dates
Schedule
day 2 h. 8.00 - 16.00
day 3 h. 8.00 - 16.00
day 4 h. 8.00 - 16.00
Price
Highlights
- Individual workstations
- Extra free training hours for practice
- A certificate of completion
- Educational aids: scripts
- Access to specialist magazines and technical literature (regarding stationary training)
- Writing aids (pen, notebook) - regarding stationary training
- Complete care of idividually assigned customer service person
- Participant Cards with discounts to partner restaurants / pubs in Gliwice (regarding stationary training)
Catering
More information
Contact
Closed trainings
Certificate
More information
Accommodation
Please contact us on:
0048 32 4111 000
info@emt-systems.pl
should you have any questions on the course you have chosen
Course program
- Functional safety in practice:
- problems connected with the safety of an industrial process
- machine-related threats and hazards
- safety standards
- a process of designing a safe machine
- practical approach to the aspects of safety
- Machinery Directive – legal aspects relating to safety
- CE certification
- inspection offices for dealing with safety issues
- declaration of conformity
- assessment of the level of modification of a machine with regard to safety
- calculating and reducing risks
- a process of reducing risks
- determination of the required level of safety (category/PL/SIL - EN954-1/EN ISO 13849-1/ EN IEC 62061)
- legal standards relating to safety levels
- a comparison of current standards connected to PL and SIL
- the application of standards relating to PL and SIL
- realization of safety functions
- using Siemens Safety Evaluation Tool to evaluate the safety level
- colour scheme of indicators and buttons, compliant with the standards
- different possibilities of realizing safety systems 1oo1, 1oo2, 2oo2, 2oo3, 1oo1D, 2oo2D, 1oo2D emergency cut-off/stop
- Components used in safety systems:
- typical components used in safety systems
- more sophisticated safety systems – muting safety curtains, spatial scanners
- standards relating to mechanical protection shields
- Principles of connecting safety system signals to PLC:
- methods of connecting safety system input signals to PL depending on the required safety category 1oo1, 1oo2, 2oo2, 2oo3
- methods of connecting safety system output signals to PLC depending on the required safety category
- PROFIsafe – operation principle:
- traditional realization of a safety system – comparison with a network system
- PROFIsafe – a profile for safety systems using Profibus and ProfiNet networks
- a mechanism of sending safety signals irrespectively of the communication layer
- tasks of a PROFIsafe layer
- data format in PROFIsafe
- data protection in PROFIsafe
- Parameters specific for the device/parameter server. Advantages/disadvantages of using PROFIsafe
- Solutions for Simatic Safety Integrated:
- components of a Simatic Safety system
- configuration and auxiliary software
- realization of safety program by the certified PLC
- times of safety system’s reaction – calculations
- technical documentations enhancing the knowledge about the system
- Configuration of the PLC S7 project:
- stages of creating safety programs
- PLC project configuration
- configuration of peripheral devices in Profibus/Profinet network
- comparing connections with the controller established by different networks (MPI/Profibus/Ethernet)
- communication network view in the project – application NetPro (configuration of communication connections)
- generation of diagnostic information by the Report System Error application
- parameters specific for the controller in the F version
- parameters of I/O modules from the F family
- additional addresses of I/O modules in PROFIsafe
- rules for accessing F modules
- structure of variables connected with using F modules
- Preparing a user program for PLC:
- basic information about creating applications for the controller used for tests
- calling basic program blocks
- preparing an example of user application for the controller
- verification of errors in the program using Check Block Consistency application
- Preparing a user program for the operator panel of the HMI visualization system:
- adding the project of operator panel to the Step 7 project
- configuration of communication connection with PLC
- configuration of the alarm system with regard to Report System Error
- displaying data on the panel screen
- uploading the settings into the panel
- Preparing a user program for the frequency converter:
- operating the converter from the PLC – via communication network
- test launch of the drive
- program controlling the operation of the drive
- Principles of creating safety programs in PLC:
- F program blocks
- Runtime groups used to operate safety systems
- structure of the safety application
- principles of creating safety programs in PLC
- supported variables types
- rules of accessing memory areas of PLC from different places in the application (standard/safe program / network communication)
- program operations available in the safety program
- dedicated system variables used in safety programs
- safety program status
- compilation of safety programs
- comparing safety programs
- sharing data between the standard and safety programs / between safety groups/PLCs
- test of the validity of standard signals used in safety programs
- reintegration and passivation of safety modules
- Overview of standard functions of Distributed Safety libraries:
- behavior of the modules in the event of failures/errors (passivation) – confirmation of errors (reintegration) via digital inputs and HMI system
- tests of subsequent blocks available in the library
- basic safety functions – poppet, door, two-hand pushbutton
- extended safety functions – curtain
- safe communication via the network
- the remaining objects available in the library (timers, counters, conversions)
- Safety modes of converter drives as illustrated with Siemens Sinamics G converter:
- different methods of realizing the safety system for the converter
- functional safety embedded in the drive
- available safety functions in the following drives: STO (Safe Torque OFF), SS1 (Safe STOP 1), SS2 (Safe STOP2), SOS (Safe Operational Stop), SLS (Safely Limited Speed), SDI (Safe Direction), SSM (Safe Speed Monitor), SBC (Safe Brake Control)
- the highest safety class in drives (PL e / SIL3)
Laboratory
Participants of the course have at their disposal individual workstations fitted with necessary equipment:
- Traditional PLC solutions – CPU 315F 2PN/DP and S7-300 I/O modules in the FAIL-SAFE version
- CPU 315F 2PN/DP connected via Profinet communication network with ET-200S I/O modules in the FAIL-SAFE version
- Complex solutions based on the ET-200S CPU in the F version
Additionally, workstations feature the following actuators:
- optical barriers with a travelling product (muting – forcing the barrier to switch off when the product passes)
- "mini doors" fitted with limit switches
- sets of two-hand pushbuttons
- safety poppets with double joints
- ignition with key
- double – “safe” actuating contactors
During the training participants also use, besides PLC-F controller and real actuators, Operator Panels for the purposes of demonstrating the alarms connected with the safety system and the mechanism of confirming safety system errors by the subject panel.
Another important actuating element is frequency converter (Sinamics G120) controlling the asynchronous motor fitted with embedded safety functions called both by digital inputs and via communication networks.
About us
Our experts
Expert in automation with over 20 years of experience supported by implementations of complex industrial automation systems and maintenance of large production lines including the first PCS7 installation in Poland. He is a graduate from the faculty of Automatic Control, Electronics and Computer Science of the Silesian University of Technology.
His professional career is primarily focused on PLC and SCADA programming; he has completed numerous complex projects and contributed to the modernization of many automation systems. He has worked as a teacher for over 10 years and has successfully trained many young engineers. Students see him as a passionate and active tutor with extensive professional knowledge.
He specializes in SIEMENS products and systems such as: SINAMIC S7 300/400, SIMATIC STEP 7, TIA PORTAL, PROTOOL, PCS7, WINCC FLEXIBLE, WINCC, WINCC PROFESSIONAL, MICROMASTER and SINAMICS S,G drives. He is the author of many excellent documentations and course programs and the courses tutored by him are particularly valued by the participants.
Intended for:
Automation engineers, electricians, maintenance services and workers who do or will perform tasks involving control systems design or maintenance of safety for zones or devices requiring functional safety provided by Simatic S7 controllers. Everyone interested in gaining and enhancing their knowledge on creating, designing, programming and possibilities of Simatic S7 Safety Integrated controllers.
Benefits for participants:
During the course participants will have a chance to learn the rules and acquire skills of creating and diagnosing programs providing different safety functions, with the use of Distributed Safety library. Students will also learn about the standards, requirements and PL, SIL calculations.
Catering
During each training day, participants receive:
- Unlimited access to the Cechownia Cafe coffee bar, serving tea and high-quality freshly ground coffee. The bar is equipped with:
- NECTO Karisma - a professional espresso machine of Italian production.
- THERMOPLAN BW 4 - a professional espresso machine made in Switzerland.
- Two-course dinner - a combination of traditional, home-made flavors with meals served in restaurants.