Curriculum
- 15 Sections
- 117 Lessons
- 60 Weeks
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- Part1 : S7-F_FH System | Basics13
- 1.1MA0: History of Fail Safe and Fault-Tolerant Controllers in SIMATIC Family
- 1.2MA1: History | The Seveso disaster | A turning point in the development of safety systems in Europe
- 1.3MA2: History | The Bhopal Disaster: A Catalyst for Global Safety System Reform and Environmental Awareness
- 1.4MA3: SIS (Safety instrumented system) and their applications
- 1.5MA4: Fail Safety Concept and Terminology
- 1.6MA5: SIL Calculation | Monitoring inert seal gas flow in a hydrogen compressor
- 1.7MA6: SIL Calculation | Level measurement in cooling water tank
- 1.8MA9: What you may need for migration tests
- 1.9MA10: Installation of S7-F_FH System legacy Version 5.1
- 1.10MA11: Quick Start project and simulation V5.1
- 1.11MA12: Migration S7-F_FH System from V5.1 to V6.0 SP1 | Senario1
- 1.12MA14: Migration S7-F_FH System from LIB V1.1 to V1.3 | Senario2
- 1.13MA15: Migration S7-F_FH System from V5.2 to V6.0 SP1
- Part2 : S7-F_FH System | Hardware12
- 2.1MB10: Fault Tolerant CPUs | Basics Architecture | S7-400H setup options
- 2.2MB11: Rules for the assembly of fault-tolerant stations
- 2.3MB12: Fault Tolerant CPUs | S7-400H Minimum System Requirement | Display elements of the H CPUs
- 2.4MB14: Accessories needed to install Fail Safe Signal Modules on an External Rack |Active Bus Modules
- 2.5MB15: Assigning the PROFIsafe address
- 2.6MB20: Fail Safe Digital Input | Types of sensors
- 2.7MB21: Safety Digital Input | SIL 2 Redundant configuration
- 2.8MB22: Safety Digital Input | SIL 3 Non-Redundant/Redundant configurations
- 2.9MB30: Fail Safe Digital Output | Different Types of Wiring| SIL3 configuration
- 2.10MB31: Parallel Connection of Two Outputs for Dark Period Suppression
- 2.11MB40: Fail Safe Analog Input | Fail Safe Analog Input SIL2
- 2.12MB41: Fail Safe Analog Input | Fail Safe Analog Input SIL3
- Part3 : S7-F_FH System Programming Tips , Fail Safe Library Elements (P1)16
- 3.1MC0 | How to handle projects accompanying tutorials
- 3.2MC1 | Basics of S7-F_FH Programming Overview (P1)
- 3.3MC2 | Basics of S7-F_FH Programming Overview (P2)
- 3.4MC3 | Basics of S7-F_FH Programming | F Shutdown Groups | F Runtime Groups
- 3.5MC4 | Basics of S7-F_FH Programming | Data Exchange Between F Shutdown Groups
- 3.6MC5 | Basics of S7-F_FH Programming | Fail Safe Standard Data Conversion
- 3.7MC6 | Basics of S7-F_FH Programming | F Start-up and Restart Protection
- 3.8MC7 | Basics of S7-F_FH Programming | FSTOP
- 3.9MC8 | Basics of S7-F_FH Programming | Partial Shut Down Groups
- 3.10MC9 | S7-F_FH Binary Logic Elements (P1)
- 3.11MC10 | S7-F_FH Binary Logic Elements (P2)
- 3.12MC11 | S7-F_FH Latch Elements
- 3.13MC12 | S7-F_FH Edge Elements
- 3.14MC14 | S7-F_FH Safety Timers (P1)
- 3.15MC15 | S7-F_FH Safety Timers (P2)
- 3.16MC16 | Spare
- Part4 : S7-F_FH System Programming Tips , Fail Safe Library Elements (P2)13
- 4.0MC17 | S7-F_FH Safety Counter
- 4.1MC18 | S7-F_FH floating point Operations (P1)
- 4.2MC19 | S7-F_FH floating point Operations(P2)_F PLOYG
- 4.3MC20 | S7-F_FH floating point Operations (P3)
- 4.4MC21 | S7-F_FH Integer Operations
- 4.5MC22 | S7-F_FH Compare and limiters
- 4.6MC23 | S7-F_FH Selector and Multiplex
- 4.7MC24 | S7-F_FH Voters (P1)
- 4.8MC25 | S7-F_FH Voters (P2)
- 4.9MC26 | SPARE -BLANKS
- 4.10MC27 | S7-F_FH Reusable Safety Chart Block Types (P1)
- 4.11MC28 S7-F_FH Reusable Safety Chart Block Types (P2)
- 4.12MC29 S7-F_FH Reusable Safety Charts Templates versus block types
- Part5 : S7-F_FH System | Sample Safety Logic Development7
- 5.0MD1 | S7-F_FH Block Types for ArcTan | Reusable Block Type
- 5.1MD2 | S7-F_FH for Condensed liquid level Protection in a compressor
- 5.2MD3 | S7-F_FH for Compressor Pressure Safety limit
- 5.3MD4 | S7-F_FH First Trip Out for Burner Management System
- 5.4MD5 | S7-F_FH for Valve Discrepancy | one command 2 feedbacks
- 5.5MD6 | S7-FH Fail safe Nonlinear Function | Write you own function
- 5.6MD7 | S7-FH Fail safe | 1oo2 Analog Voter Block ProSafe RS Style
- Part6 : S7-F_FH System | Communication | Integration to PCS 75
- 6.1ME1 | Communication Options in F_FH SYSTEMS
- 6.2ME2 | Communication for Fail Safe Boolean between S7-400FH CPUs
- 6.3ME3 | Communication for Fail Safe Floating Point between S7-400FH CPUs
- 6.4ME4 | S7-F_FH integration in PCS 7 | Analog process and Monitor
- 6.5ME5 | S7-F_FH integration in PCS 7 | Interlock and Motor Control
- Part7 : S7-F_FH System | Maintenance Inhibition and Safety Value Manipulation8
- 7.0MF1: S7-F_FH and OS Maintenance Inhibition strategies (P1)
- 7.1MF2: S7-F_FH and OS Maintenance Inhibition strategies (P2)
- 7.2MF3: S7-F_FH and OS Maintenance Inhibition strategies Time LIMIT (P3)
- 7.3MF4: S7-F_FH and logic intervention from OS
- 7.4MF5: S7-F_FH and OS MIH User Authorization
- 7.5MF6: S7-F_FH and OS MIH Safety Write Down Functions (P1)
- 7.6MF7: S7-F_FH and OS MIH Safety Write Down Functions (P2)
- 7.7MF8: S7-F_FH Example for Analog Input Simulate and ACK
- Part8 : S7-F_FH System | SIMATIC Safety Matrix9
- 8.0MG1 Safety Matrix | Binary Inputs and Non-Stored Output | Voting 5ooN
- 8.1MG2 Safety Matrix | Binary Inputs and Latch outputs | Timer Applications
- 8.2MG3 Safety Matrix | Secure Maintenance Changes | Force Safety Signals
- 8.3MG4 Safety Matrix | Resettable and Overridable configuration
- 8.4MG5 Safety Matrix | Bypass and Soft-Bypass
- 8.5MG6 Safety Matrix | Analog Processing
- 8.6MG7 Safety Matrix | 2oo3 Analog Processing | Channel Fault
- 8.7MG8 Safety Matrix | External signal processing | Fail-safe Nested Chart connection
- 8.8MG9 Safety Matrix | First Trip Out
- Part9 : S7-F_FH System | Final Projects6
- 9.0MP1 | S7-F_FH Fail Safe Wet Bulb Calculator
- 9.1MP2 | S7-F_FH Knock out Drum Level Protection
- 9.2MP3 | S7-F_FH Fire and Gas Application | Flame Detection (P1)
- 9.3MP4 | S7-F_FH Fire and Gas Application | Infrared Gas Detection (P2)
- 9.4MP5 | Safety Matrix for Distillation Tower Overpressure Protection
- 9.5MP6 | S7-F_FH for Ratchet Safety and Control System
- Part10 : Final Projects | S7-F_FH version of ProSafe RS analog Voter from Yokogawa | Water Drum Protection6
- 10.1MQ1 | S7-F_FH version of ProSafe RS analog Voter from Yokogawa | Block Description
- 10.2MQ2 | Explain Analog Voter Program type developed in S7-F_FH (P1)
- 10.3MQ3 | Explain Analog Voter Program type developed in S7-F_FH (P2)
- 10.4MQ4 | ProSafe RS Style Function Test and Simulation
- 10.5MQ5 | Hardware Design for Water Drum Protection in S7-F_FH
- 10.6MQ6 | Tips for implementation in PCS 7 Environment and Simulation
- Part11 : Final Projects | Gas Turbine Combustion Monitor | Protection for Turbine Exhaust Temperature4
- 11.0MR1 | Control Philosophy | S7-F_FH Protection for Turbine Exhaust Temperature
- 11.1MR2 | Function test | Average Temperature | Min and Max Deviation
- 11.2MR3 | Function test | Maintenance Inhibition | Report Inhibited Signals
- 11.3MR4 | Program Analysis| S7-F_FH Protection for Turbine Exhaust Temperature
- Part12 : Final Projects | S7-F_FH Fail Safe Leak Test for Burner Management systems5
- 12.0MS1 | S7-F_FH Fail Safe Leak Test for BMS | Purge , Logic and Control Philosophy
- 12.1MS2 | S7-F_FH Fail Safe Leak Test for BMS | Piping Leak Test, Logic and Control Philosophy
- 12.2MS3 | S7-F_FH Fail Safe Leak Test for BMS | Piping Leak Test and Purge Function Test
- 12.3MS4 | S7-F_FH Fail Safe Leak Test for BMS | Program Development
- 12.4MS5 | S7-F_FH Fail Safe Leak Test for BMS | Implement HMI | Graphic interface Design
- Part14 : Exercises for more practice5
- 13.0MT1 | S7-F_FH Systems | Migrate protected Fail Safe Block Type from V1.2 to V1.3 | Cubic Polynomial
- 13.1MT2 | S7-F_FH Systems | Implement a Shut-Down Bar for a Plant | plus Maintenance Inhibition
- 13.2MT3 | S7-F_FH Systems | Safety Logic Analysis | Generator Stator Temperature Monitoring
- 13.3MT4 | S7-F_FH Systems | Safety Logic Analysis | Emergency STOP Logic | Hardware Design
- 13.4MT5 | S7-F_FH Systems | Safety Logic Analysis | Voting and Lube Oil Systems Shutdown
- Part20 : Quiz and Certification1
- Part21 : SPARE7
MA1: History | The Seveso disaster | A turning point in the development of safety systems in Europe
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