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Simatic S7-300
Table of contents
- user manual
- Table Of Contents
- Preface
- Product Content
- External Structure &Pin Definition
- Inner Diagram
- ETH Adapter CN Parameters Setting
- STEP7 software setting
- The usage in the LAN
- PC work as Client,ETH Adapter CN work as Server
- PC work as Server, ETH Adapter CN work as Client
- Remote communication in the internet
- PC work as Server, ETH Adapter CN work as Client
- PC work as Client,ETH Adapter CN work as Server
- Remote wireless communication in 3g internet
- Appendix: basic knowledge of Ethernet
Simatic S7-300
Table of contents
- Table Of Contents
- Welcome
- Preparing the PC
- Installing and wiring the hardware
- What components are required
- Installing the components
- Wiring the components
- Commissioning the hardware
- Configuring the control in STEP 7 Lite
- What is a STEP 7 Lite project
- Opening a STEP 7 Lite project
- Reproducing the module configuration in STEP 7 Lite
- Establishing the online connection between the PC and CPU 312C
- Downloading and checking the module configuration to the CPU 312C
- Opening the program on the PC
- What is a program
- Opening a program
- Performing a test run
- Downloading the project to the CPU 312C
- Starting the test run
- Congratulations
- Additional information
- Diagnostics / correction of errors
- Additional documentation
- SIMATIC Technical Support
Simatic S7-300
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Manual, Edition 08/2004,
- Table 1-3 Communication between sensors/actuators and the PLC
- Table 1-6 CPU performance
- Table 1-9 Supplementary features
- Operating and display elements
- Status and Error Indicators: CPU 31xC
- Operating and display elements: CPU 31x
- Operating and display elements: CPU 317-2 DP
- Operating and display elements: CPU 31x-2 PN/DP
- Status and error displays of the CPU 31x
- Communication
- PROFIBUS DP
- PROFINET (PN)
- Point to Point (PtP)
- Overview of communication services
- PG communication
- S7 communication
- Global data communication (MPI only)
- Routing
- PtP communication
- Data consistency
- PROFINET IO System
- Blocks in PROFINET IO
- System status lists (SSLs) in PROFINET IO
- Open communication via Industrial Ethernet
- SNMP communication service
- Assignment of S7 connections
- Distribution and availability of S7 connection resources
- Table 3-11 Availability of connection resources
- Connection resources for routing
- DPV1
- Memory areas and retentivity
- Retentivity of the load memory, system memory and RAM
- Retentivity of memory objects
- Address areas of system memory
- Properties of the Micro Memory Card (MMC)
- Memory functions
- Handling with modules
- Deleting blocks
- Recipes
- Measured value log files
- Backup of project data to a Micro Memory Card (MMC)
- Overview
- Cycle time
- Calculating the cycle time
- Different cycle times
- Communication load
- Cycle time extension as a result of testing and commissioning functions
- Response time
- Shortest response time
- Longest response time
- Reducing the response time with direct I/O access
- Calculating method for calculating the cycle/response time
- Interrupt response time
- Reproducibility of delay interrupts and watchdog interrupts
- Sample calculations
- Sample of response time calculation
- Example of interrupt response time calculation
- A5E00105475
- Technical data of CPU 31xC
- Technical data of CPU 31x
- CPU 312C
- CPU 313C
- CPU 313C-2 PtP and CPU 313C-2 DP
- CPU 314C-2 PtP and CPU 314C-2 DP
- Technical data of the integrated I/O
- Analog I/O
- Configuration
- Interrupts
- Diagnostics
- Table 6-12 Technical data of digital inputs
- Digital outputs
- Table 6-13 Technical data of digital outputs
- Analog inputs
- Analog outputs
- General technical data
- Technical data of the Micro Memory Card (MMC)
- technical data
- CPU 315-2 DP
- CPU 315-2 PN/DP
- CPU 317-2 DP
- CPU 317-2 PN/DP
- A.1 Information about upgrading to a CPU 31xC or CPU 31x
- A.1.2 Changed behavior of certain SFCs
- A.1.3 Interrupt events from distributed I/Os while the CPU status is in STOP
- A.1.4 Runtimes that change while the program is running
- A.1.6 Reusing existing hardware configurations
- A.1.8 Using consistent data areas in the process image of a DP slave system
- Memory concept
- A.1.12 Changed retentive behavior for CPUs with firmware >= V2.1.0
- A.1.14 Using loadable blocks for S7 communication for the integrated PROFINET interface
- Glossary
- Table Of Contents
Simatic S7-300
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Purpose of the manual
- Preface
- Product overview
- Configuration of an electronic cam control with FM 352
- Cam control basics
- Tracks and track result
- Special tracks
- Hysteresis
- Dynamic adjustment
- Interfaces of the cam controller
- Installing and removing the FM 352
- Connecting the encoder
- Terminal assignment of the front connector
- Wiring the front connector
- Installing the software
- Programming the FM 352
- Basics of Programming an FM 352
- Data blocks
- Interrupts
- Evaluating a diagnostics interrupt
- Channel DB
- High-speed access to module data
- Parameter transmission paths
- Commissioning the FM 352
- Parameter DB
- Machine and cam data
- Writing and enabling machine data
- Read machine data
- Writing cam data
- Reading cam data
- Physical units system
- Machine data of the axis
- Determining the correct absolute encoder adjustment
- Example: Adjusting the absolute encoder
- Machine data of the encoder
- Resolution
- Quantity framework and track data
- Interrupt enable
- Cam data
- Settings
- Influence of settings on the switching characteristics of time-based cams
- Set zero offset
- Set reference point
- Change cam edges
- Perform "Fast Cam Parameter Change
- Executing "Length measurement and edge detection
- Retrigger reference point
- Disabling software limit switches
- Simulating
- Read "count values of counter cam tracks
- Read "position and track data
- Read encoder data
- Read cam and track data
- Setting control signals for the cam controller
- Querying checkback signals for the cam controller
- Setting the return signals for diagnostics
- Encoders
- Proximity switches
- Absolute encoder
- Diagnostics
- Diagnostic interrupts
- Examples
- Requirements
- Sample Program 2 "Commissioning
- Sample program 3 "One Module
- Sample program 4 "Interrupts
- Sample program 5 "MultiModules
- A.2 Technical data
- B.1 Encoder types
- B.2 Connection Diagram for Incremental Encoder Siemens 6FX 2001-2 (Up=5V; RS 422)
- B.3 Connection Diagram for Incremental Encoder Siemens 6FX 2001-2 (Up=24V; RS 422)
- B.4 Wiring Diagram of the Incremental Encoder Siemens 6FX 2001-4 (Up = 24 V; HTL)
- B.5 Connection Diagram for Absolute Encoder Siemens 6FX 2001-5 (Up=24V; SSI)
- C.1 Content of the channel DB
- C.2 Content of the parameter DB
- C.3 Data and Structure of the Diagnostic DB
- C.4 Error classes
- D.1 Overview of the Programming without SFB 52 and SFB 53 section
- D.3 FC CAM_INIT (FC 0)
- D.4 FC CAM_CTRL (FC 1)
- D.5 FC CAM_DIAG (FC 2)
- D.6 Data blocks
- D.6.4 Parameter DB
- D.7 Interrupts
- D.8 Evaluation of a hardware interrupt
- D.9 Evaluating a diagnostics interrupt
- D.10 Technical specifications
- D.11 Fast access to module data
- D.12 Parameter transfer routes
- Index
Simatic S7-300
Table of contents
- Edition
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Information Landscape of an S7-300
- Additional Documentation
- SIMATIC Technical Support
- Influence of the ambient conditions on the automation system (AS)
- Communication between sensors/actuators and the automation system
- CPU performance
- Installing an S7 system
- Example configuration: S7-300 components
- Components of an S7-300:
- Horizontal and vertical installation
- Rails - overview
- Shielding contact element
- Clearance
- Arranging modules on a single rack
- Maximum configuration on one rack
- Interface modules - Overview
- Assembly
- Full assembly using racks
- Types of cabinet
- Selection and installation of cabinets
- General Rules and Regulations for S7-300 Operation
- Configuration with isolated modules
- Configuration with non-isolated modules
- Shielding of Cables
- Connection of the load voltage reference potential
- Overview: Grounding
- Grounding concept for the S7-300 with CPU 31 x
- Characteristics of load power supply units
- Example: S7-300 with load power supply from PS 307
- Nodes on the subnet
- MPI/PROFIBUS DP addresses
- MPI addresses of CPs/FMs in an S7-300
- Interfaces
- The following devices may be connected
- Available bus cables
- Marginal conditions for wiring interior bus cables
- RS 485 repeater
- Cable length
- Permitted cable lengths in a PROFIBUS subnet segment
- Example of an MPI subnet
- Example: Maximum distance in the MPI subnet
- Example of a PROFIBUS subnet
- Example: CPU 314C-2 DP as MPI and PROFIBUS nodes
- Example of PG access across network boundaries (routing)
- S7-300 Modules
- Module accessories
- Installation tools and materials
- Holes for mounting the 2 m rail
- Mounting holes for rails
- Free space required for an S7-300 installation
- Slot numbers for S7 modules
- Inserting slot numbers in modules
- Wiring
- Conditions for connecting the PS and CPU
- Wiring conditions for front connectors
- Connecting the Protective Conductor to the Rail
- Setting the mains voltage selector switch for the PS 307
- Wiring the power supply module and the CPU
- Assignment of front connectors to modules
- Move the front connector into wiring position
- Slide the labeled strips into the front panel
- Assigning the shielding diameter to shielding terminals
- Shielding contact element underneath two signal modules
- Connecting 2-wire cables to the shielding contact element
- Bus connector: Enabled and disabled terminating resistor
- Addressing
- S7-300 slots and the associated module start addresses
- Addresses of the I/O of digital modules
- I/O Addresses of a digital module in Slot 4
- I/O addresses of an analog module in Slot 4
- Consistent Data
- Recommended commissioning procedure - part I: Hardware
- Recommended commissioning procedure - part II: software
- Configuring
- Installation
- Insert a back-up battery into CPUs 313/314
- Insert the memory card into the CPU
- Connecting a PG to an S7-300
- Connecting a PG to multiple S7 devices
- Connecting a PG to a subnet
- PG connected to an ungrounded S7-300
- In this Chapter
- Operation of mode selector switch for memory reset
- Using the mode selector switch for a cold start (CPU 318-2 DP only)
- Operations in the CPU during a memory reset
- Software requirements
- Commissioning the CPU as DP master
- Commissioning the CPU as DP slave
- Transfer memory in the CPUs 31x-2 DP acting as DP slave
- Configuration example for the address areas in transfer memory
- Direct Data Exchange
- Direct data exchange with CPUs 31x-2 DP
- Backup of the operating system on MC
- Updating the Operating System
- Unlocking the front connector and removing the module
- Removing the front connector coding pin
- Installing a new module
- Module replacement
- Replacing the back-up battery in CPU 313/314
- Location of fuses in the digital output module 120/230 VAC
- Principle of Forcing with S7-300 CPUs (all CPUs except 318-2 DP)
- Diagnostics with LEDs
- Evaluation of the SF LED (software error)
- The BUSF, BUSF1 and BUSF2 LEDs
- The BUSF LED lights up
- Diagnostics with CPU 31x-2
- Diagnostic addresses for DP masters and DP slaves
- Event recognition by CPUs 31x-2 as the DP master
- Diagnostic address for the receiving node with direct data exchange
- Reading Slave Diagnostic Data
- Event recognition by CPUs 31x-2 acting as the DP slave
- Evaluation of RUN to STOP transitions in the DP master/DP slave
- Interrupts on the DP Master
- Structure of slave diagnostic data
- Structure of station status 1 (byte 0)
- Structure of station status 3 (byte 2)
- Structure of the ID-specific diagnostics for CPU 31x-2
- Structure of the module status
- Structure of the interrupt status
- Bytes y+4 to y+7 for a diagnostic interrupt (operating status change by intelligent slave)
- Starting the system after specific events
- Mains voltage
- Possible paths of electromagnetic interference
- Coupling mechanisms
- Example of an EMC compatible cabinet installation
- Key to example 1
- Example of EMC compatible wall-mounting
- Equipotential bonding
- Routing cables inside buildings
- Lightning and Surge Voltage Protection
- Lightning Protection Zone Concept
- Lightning protection zones of a building
- High-voltage protection of cables with surge voltage protection components
- Surge voltage protection components for lightning protection zones 1 <-> 2
- Surge voltage protection components for lightning protection zones 2 <-> 3
- Sample circuit for networked S7-300 PLCs
- Example of a lightning-protected structure (key to figure above)
- EMERGENCY-OFF relay contact in the output circuit
- Circuit for coils operated with DC voltage
- Commissioning
Simatic S7-300
Table of contents
- This manual
- Configuration Manual, 09/2013, C79000-G8976-C182-13
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Communication via Ethernet CPs in S7 stations
- Industrial Ethernet Security
- SIMATIC S7 communication options with Ethernet CPs
- The communications services of the Ethernet CPs
- Operation using a configured or programmed database
- PG communication with STEP 7 over Industrial Ethernet
- OP mode: Connecting HMI/ monitoring devices via Industrial Ethernet
- Open communications services (SEND/RECEIVE interface)
- FETCH/WRITE services (server)
- Networking stations with STEP 7
- Characteristics of the Ethernet CPs
- Communications processors for S7400
- Slot rules for SIMATIC S7300
- Note on S7300 CPU: Connection resources
- Multicomputing
- Note on S7400 CPU: Connection resources
- Configuring the Ethernet CP with STEP 7
- Networking Ethernet CP
- Setting further CP properties
- General" parameter group
- Parameter / function "Module addresses
- Options / Settings" parameter group
- Time-of-day synchronization" parameter group - mode
- IP access protection" parameter group
- IP configuration" parameter group
- User management" parameter group
- DNS configuration" parameter group
- Parameter group "SNMP
- PROFINET" parameter group
- Web" parameter group
- Sending entries for the IP access protection to the Advanced CP using HTTP/HTTPS
- Media redundancy
- MRP configuration
- Assigning addresses the first time
- Addressing by selecting the target system
- Downloading the configuration data to the target system
- How the SEND/RECEIVE interface works on the CPU
- Programming the SEND/RECEIVE interface
- Data exchange S7 CPU − Ethernet CP
- Additional information
- Recommendations for use with a high communications load
- Configuring communications connections
- Procedure and connection properties
- Connections to partners in other projects
- Inconsistent connections - connections without assignment
- Configuring ISO transport connection properties
- Specifying ISO transport dynamics properties
- Configuring ISO-on-TCP connection properties
- Configuring TCP connection properties
- Configuring UDP connection properties
- UDP with broadcast and multicast
- Free UDP connection
- FETCH/WRITE mode
- CP as PROFINET IO controller
- PROFINET IO with IRT communication (STEP 7 V5.5)
- IO controller mode with S7-300
- Reading and writing data records with program block PNIO_RW_REC
- IO controller mode with S7-400
- Further information on operation with PROFINET IO
- Intelligent PROFINET IO device with S7-300 CP
- Principle of data exchange in IO device mode
- Configuration (STEP 7 V5.5)
- Enabling the CPU as a PROFINET IO device in the S7 station
- Assigning a PROFINET IO device to a PROFINET I/O system
- Configuration (STEP 7 Professional)
- Interface for programming on the PROFINET IO device
- Shared device
- Sending process messages by email
- Authentication and other features of the Advanced CP
- Project engineering
- Setting up an e-mail connection
- Sending an e-mail
- Testing the email function
- File management and file access with FTP/FTPS
- Advanced CP as FTP server for the file system on the CP
- File system - structure and features
- Advanced CP as FTP server for the S7 CPU data
- FTP commands on the FTP client
- File allocation table
- The Advanced CP as FTP client for S7 CPU data
- Setting up FTP connections
- Program blocks for FTP services
- S7-CP Advanced as Web server: HTML process control
- Security when accessing process data
- Opening ports on the Advanced CP during configuration
- Scaled password protection with security
- Accessing the Advanced CP via a Web browser
- Web diagnostics
- Setup and operation
- Diagnostics pages of the CP
- Identification
- Module status / rack configuration
- Industrial Ethernet
- SEND/RECEIVE communication / configured connections
- S7 communication
- Security
- Topology - "Graphic view" tab
- Topology - "Table view" tab
- Topology - "Status overview" tab
- Update center - "IP access control list" tab
- Update center - "Diagnostics messages" tab
- STEP 7 special diagnostics
- Functions
- Menu commands
- Starting diagnostics
- Use as PC station - setting the gateway for "PC internal
- Other ways of starting diagnostics (STEP 7 V5.5)
- How to use diagnostics
- Starting diagnostics functions explicitly
- Checklist for "typical problems" in a system
- Checklist for general CP functions
- Diagnostics messages from e-mail connections with authentication
- Downloading firmware
- Loading from the Download Center
- A.1 24 VDC connector
- A.3 Connector for Industrial Ethernet
- A.4 Connector for PROFIBUS
- Index
Simatic S7-300
Table of contents
- Fail-safe signal modules Installation and Operating Manual, 01/2010, A5E00085586-10
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Product overview
- Guide to commissioning fail-safe signal modules
- What is PROFINET IO
- Configuration options
- Configuration with F-SMs in Standard Mode
- Configuration with F-SMs in Safety Mode
- Configuration and parameter assignment
- Parameter Assignment
- Firmware update via HW Config
- I&M identification data
- Addressing and installation
- Addressing the Channels
- Assigning the PROFIsafe address
- Assigning PROFIsafe Address (Starting Address of F-SM)
- Assigning PROFIsafe Address (F_destination_address)
- Installing
- Wiring
- Safe Functional Extra-Low Voltage for Fail-Safe Signal Modules
- Wiring Fail-Safe Signal Modules
- Replacing Fail-Safe Signal Modules
- Sensor and Actuator Requirements for F-SMs in Safety Mode
- Fault reaction and diagnostics
- Reactions to Faults in Safety Mode
- Fault reactions in safety mode with parameter setting "Keep last valid value
- Diagnosis of Faults of F-SMs
- Introduction
- Electromagnetic Compatibility
- Shipping and storage conditions
- Specifications for Nominal Line Voltages, Isolation Tests, Protection Class, and Degree of Protection
- Discrepancy analysis at the fail-safe digital input modules
- Properties, Front View, Connection Diagram, and Block Diagram
- Use cases for the SM 326; DI 24 24V DC
- Application 1 : Standard Mode
- Application 2 : Standard operation with high availability
- Application 3: Safety mode SIL2/Cat.3/PLd
- Application 4: Safety mode SIL2/Cat.3/PLd with high availability (in S7 F/FH Systems only)
- Application 5: Safety mode SIL3/Cat.4/PLe
- Application 6: Safety mode SIL3/Cat.4/PLe with high availability (in S7 F/FH Systems only)
- Diagnostic messages of SM 326; DI 24 x DC 24V
- Technical data - SM 326; DI 24 x DC 24V
- Properties, front view, wiring diagram and block diagram
- Special Features when Wiring SM 326; DI 8 x NAMUR for Hazardous Areas
- Cases of application of SM 326; DI x 8 NAMUR
- Application 2: standard mode with high availability and application 4: safety mode SIL
- Diagnostic Messages for SM 326; DI 8 x NAMUR
- Technical data - SM 326; DI 8 x NAMUR
- SM 326; DO 8 x DC 24V/2A PM applications
- Application 1: Safety Mode SIL2/Cat.3/PLd and application 2: Safety mode SIL3/Cat.4/PLe
- Diagnostic messages of SM 326; DO 8 x DC 24V/2A PM
- Technical data - SM 326; DO 8 x DC 24V/2A PM
- SM 326; DO 10 x DC 24V/2A (6ES7326-2BF01-0AB0)
- SM 326; DO 10 x DC 24V/2A applications
- Application 1: Standard mode, application 3: Safety Mode SIL2/Cat.3/PLd and application 5: Safety mode SIL3/Cat.4/PLe
- high availability (in S7 F/FH Systems only)
- Parallel Connection of Two Outputs for Dark Period Suppression
- Diagnostics messages of SM 326; DO 10 x DC 24V/2A
- Technical Data - SM 326; DO 10 x DC 24V/2A
- SM 326; F-DO 10 x DC 24V/2A PP (6ES7326-2BF10-0AB0)
- SM 326; F-DO 10 x DC 24V/2A PP applications
- Applications 1 to 4
- Application 5.1: Wiring two outputs in parallel for dark period suppression
- Diagnostic messages SM 326; F-DO 10 x DC 24V/2A PP
- Technical data - SM 326; F-DO 10 x DC 24V/2A PP
- Analog value representation
- Applications of SM 336; AI 6 x 13 Bit
- Application 2: standard mode with high availability
- Diagnostic Messages for SM 336; AI 6 x 13 Bit
- Technical data - SM 336; AI 6 x 13Bit
- Applications of SM 336; F-AI 6 x 0/4 ... 20 mA HART
- Applications and wiring schemes
- Applications 1 and 2
- Application 4: Safety mode SIL3/Cat.3/PLe with high availability (in S7 F/FH Systems only)
- Application 7: Safety mode SIL3/Cat.4/PLe
- Application 8: Safety mode SIL3/Cat.4/PLe with high availability (in S7 F/FH Systems only)
- Application 9: Safety mode SIL3/Cat.4/PLe with three modules and high availability (in S7 F/FH Systems only)
- Diagnostic messages of SM 336; F-AI 6 x 0/4 ... 20 mA HART
- Technical Data - SM 336; F-AI 6 x 0/4 ... 20 mA HART
- Parameters of analog input module F-AI 6 x 0/4 ... 20mA HART
- Setting smoothing of analog values
- Parameter assignment of discrepancy analysis for 1oo2 evaluation
- Deactivate one channel of a channel pair for 1oo1 evaluation
- Principles of HART operation
- Integration of the HART field devices
- Using HART
- HART for safety-oriented applications
- Data record interface and user data
- Diagnostic data records
- HART communication records
- Parameter records of the HART channels
- User data interface, input range (reading)
- Safety protector
- Configuration Variants
- Technical Specifications
- A.1 Introduction
- B.1 Signal Module
- B.2 Safety protector
- C.1 Accessories and Order Numbers
- D Response times
- Glossary
- Index
Simatic S7-300
Table of contents
- A5E00105492
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Preface
- Documentation S7-300
- Additional Documentation
- Guide to the S7-300 documentation
- Communication between sensors/actuators and the automation system
- CPU performance
- Supplementary features
- Installation Order
- S7-300 modules
- Components of an S7-300:
- Configuring
- Basic Principles of Planning
- Horizontal and vertical installation
- Component dimensions
- Shielding terminal module
- Arranging modules on a single rack
- Rack with eight signal modules
- Arranging modules on multiple racks
- Installation
- Full assembly using racks
- Selection and installation of cabinets
- Types of cabinet
- Example: Selecting a cabinet
- Power loss dissipated
- Electrical assembly, protective measures and grounding
- Installing an S7-300 with grounded reference potential
- CPU with grounded reference potential (as supplied)
- Creating a floating reference potential on a CPU
- Isolated or non-isolated modules?
- Configuration with isolated modules
- Configuration with non-isolated modules
- Grounding
- Overview: Grounding
- Grounding concept for the S7-300 with CPU 31xC
- Grounding concept for the S7-300 (excluding CPU 31xC)
- Selecting the load power supply unit
- Example: S7-300 with load power supply unit from PS 307
- Planning subnets
- Basic Principles of MPI, DP and PtP Subnets
- Nodes on the subnet
- MPI addresses of CPs/FMs in an S7-300
- Interfaces
- Network components
- Marginal conditions for wiring interior bus cables
- Bus connector
- PG patch cord
- Cable length
- Sample networks
- Example of an MPI subnet
- Example: Maximum distances in the MPI subnet
- Example of a PROFIBUS subnet
- Example: CPU 314C-2 DP as MPI and PROFIBUS nodes
- Example of PG access across network boundaries (routing)
- Installing the terminating resistors in an MPI subnet
- Module accessories
- Installing the rail
- Holes for mounting the 2 m rail
- Mounting holes for rails
- Free space required for an S7-300 installation
- Installing modules on the rail
- Label the modules
- Inserting slot numbers in modules
- Wiring
- Conditions for connecting the PS and CPU
- Wiring conditions for front connectors
- connecting the protective conductor to the rail
- Adjusting the power supply module to mains voltage
- Wiring the power supply module and the CPU
- Wiring front connectors
- Move the front connector into wiring position
- Wiring the front connector
- Inserting front connectors into modules
- Labeling the module I/Os
- Connecting shielded cables to the shielding contact element
- Shielding contact element underneath two signal modules
- Connecting 2-wire cables to the shielding contact element
- Wiring the bus connector
- Bus connector: Enabled and disabled terminating resistor
- Addressing
- S7-300 slots and the associated module start addresses
- User-defined addressing of modules
- Addressing signal modules
- Addresses of the I/O of digital modules
- I/O Addresses of a digital module in Slot 4
- I/O addresses of an analog module in Slot 4
- Addressing the integrated I/O of the CPU
- Integrated inputs and outputs on the CPU 312C
- Integrated inputs and outputs on the CPU 313C-2 PtP/DP
- Consistent data
- Commissioning
- Recommended commissioning procedure - part I: Hardware
- Recommended commissioning procedure - part II: software
- The commissioning checklist
- Maintenance
- Inserting or replacing a Memory Card or Micro Memory Card
- Insert the memory card into the CPU
- Insert the micro memory card into the CPU
- Commissioning the modules
- Connecting a PG to multiple S7-300 PLCs
- Connecting a PG to a subnet
- Initial power on
- Resetting CPU memory
- Using the mode selector switch to reset the memory
- Using the mode selector switch for a cold start (CPU 318-2 DP only)
- Operations in the CPU during a memory reset
- Starting SIMATIC Manager
- Monitoring and controlling I/Os
- Commissioning PROFIBUS DP
- Commissioning the CPU as DP master
- Event recognition by CPUs 31x-2 DP/31xC-2 DP as the DP master
- Commissioning the CPU as DP slave
- Event recognition for CPUs 31x-2 DP/31xC-2 DP as the DP slave
- Intermediate memory in CPU 31x-2 DP/31xC-2 DP as DP slave
- Direct data exchange
- Direct Data Exchange with CPUs 31x-2 DP/31xC-2 DP
- Operating System back-up
- Updating the Operating System
- Updating the operating system with MC/MMC
- Module replacement
- Unlocking the front connector and removing the module
- Removing the front connector coding pin
- Inserting the front connector
- Replacing the back-up battery in CPU 313/314
- Location of fuses in the digital output module 120/230 VAC
- Testing functions, Diagnostics and Fault Elimination
- Principle of Forcing with S7-300 CPUs (all CPUs except 318-2 DP)
- Overview: Diagnostics
- Diagnostic options with STEP 7
- Diagnostics with LEDs
- Evaluation of the SF LED (software error)
- Evaluation of the SF LED (hardware error)
- The BUSF, BUSF1 and BUSF2 LEDs
- The BUSF LED flashes
- Diagnostics of DP CPUs
- Diagnostic addresses for DP masters and DP slaves
- Event recognition by CPUs 31x-2 as the DP master
- Evaluation in the DP master of RUN to STOP transitions by the DP slave
- Diagnostic address for the receiving station with direct data exchange
- Reading the diagnostic information using STEP 5 and STEP 7 in the masters system
- Event recognition by CPUs 31x-2 acting as the DP slave
- Interrupts on the DP master
- Structure of slave diagnostic data
- Structure of station status 1 (byte 0)
- Structure of station status 3 (byte 2)
- Structure of the ID-specific diagnostics for CPU 31x-2
- Structure of the module status
- Structure of the interrupt status
- Bytes y+4 to y+7 for the diagnostic interrupt (SFB 75)
- Appendix
- Mains voltage
- Protection against electromagnetic interference
- Coupling mechanisms
- Five basic rules for insuring EMC
- EMC compatible installation of PLC
- Examples of an EMC compatible installation
- Key to example 1
- Example of EMC compatible wall-mounting
- Mounting cable shielding
- Equipotential bonding
- Routing cables inside buildings
- Outdoor cable routing
- Lightning and surge voltage protection
- Lightning protection zones of a building
- Rules for the transition point between lightning protection zones 1
- Rules for the transition points between lightning protection zones 1 <-> 2 and higher
- Surge voltage protection components for lightning protection zones 1 <-> 2
- Surge voltage protection components for lightning protection zones 2 <-> 3
- Sample of a surge protection circuit for networked S7-300 PLCs
- Example of a lightning-protected structure (key to figure above)
- How to protect digital output modules against inductive surge voltage
- Circuit for coils operated with DC voltage
- Safety of electronic control equipment
- Glossary
Simatic S7-300
Table of contents
- A5E00427933
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Manual, 12/2005,
- Table 1-2 Documentation for the Technology CPU
- Table 1-3 Additional documentation for the Technology CPU
- Product Overview
- Operator controls and indicators
- Memory concept
- Setting up an S7-300 with a Technology CPU
- Configuring
- Interfaces
- Addressing
- Commissioning
- Table 4-7 LED BF1 illuminated
- Table 4-9 LED BF3 illuminated
- Communication with the S7-300
- PROFIBUS DP(DRIVE) interface (X3)
- DPV1 (X1 only as PROFIBUS DP interface)
- Overview
- PG communication
- S7 basic communication
- Global data communication
- Routing
- Data consistency
- S7 communication structure
- Assignment of S7 connections
- Distribution and availability of S7 connection resources
- Table 5-6 Availability of the S7 connections for the CPU 315T-2 DP
- Retentive address areas of the load memory, system memory and technology system data
- Retentive behavior of the memory objects
- Address areas of system memory
- Properties of the Micro Memory Card (MMC)
- Index
- Saving/retrieving whole projects to/from the Micro Memory Card
- Memory functions
- Downloading a user program (enhanced handling)
- CPU memory reset and restart
- Recipes
- Measured value log files
- Technology data blocks
- Memory of the integrated technology of the CPU
- Cycle and response times
- Cycle time
- Calculating the cycle time
- Cycle time extension as a result of testing and commissioning functions
- Shortest response time
- Longest response time
- Reducing the response time with direct I/O access
- Interrupt response time
- Reproducibility of Time-Delay and Watchdog Interrupts
- Calculation example for the response time of the CPU 315T-2 DP
- Calculation example for the interrupt response time of the CPU 315T-2 DP
- Technical data
- Technical specifications of the Micro Memory Card (MMC)
- CPU 315T-2 DP
- Integrated Inputs/Outputs for Technology
- Technical specifications of digital inputs
- Technical specifications of digital outputs
- Scope
- Changed behavior of certain SFCs
- Interrupt events from distributed I/Os while the CPU status is in STOP
- Reusing existing hardware configurations
- Using consistent data areas in the process image for DP slaves
- FMs/CPs with their own MPI address in a Technology CPU rack
- A.1 List of abbreviations
- Glossary
Simatic S7-300
Table of contents
- Table Of Contents
- Fields of Application and Benefit
- Configuration
- Table Of Contents
- Table Of Contents
- Acquisition and sending of process values with time stamp
- Receiving and archiving the data records in S7-300, S7-400 and WinAC
- PC-based visualization of the archive data
- Live Demo
- Configuring components
- Memory cartridge
- Table
- Entry ID
- SIMATIC NET Edition
Simatic S7-300
Table of contents
- Controllers S7
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- General Technical Specifications
- Standards and Approvals
- Use in an Industrial Environment
- Electromagnetic Compatibility
- Sinusoidal Interference
- Shipping and Storage Conditions for Modules and Backup Batteries
- Mechanical and Climatic Environmental Conditions for Operating S7-300s
- Mechanical Conditions
- Climatic Conditions
- Information on Insulation Tests, Protection Class and Degree of Protection
- Rated Voltages of the S7-300
- SIPLUS S7-300 modules
- Mechanical and Climatic Ambient Conditions for the Operation of SIPLUS S7-300 Modules
- Use of the ET 200M / S7-300 in a Zone 2 potentially explosive area
- Power Supply Modules
- Wiring Schematic of the PS 305 Power Supply Module (2 A)
- Basic Circuit Diagram of the PS 305 Power Supply Module (2 A)
- Wiring Schematic of the PS 307 Power Supply Module (2 A)
- Basic Circuit Diagram of the PS 307 Power Supply Module (2 A)
- Wiring Schematic of the PS 307 Power Supply Module (5 A)
- Reaction of the PS 307 Power Supply Module (5 A to Atypical Operating Conditions
- Wiring Schematic of the PS 307 Power Supply Module (10 A)
- Basic Circuit Diagram of the PS 307 Power Supply Module (10 A)
- Digital Modules
- Digital Input Module SM 321; DI 8 x VAC
- Module Overview
- Digital Input Modules: Characteristics at a glance (continued)
- Digital Output Modules: Characteristics at a Glance
- Digital Output Modules: Characteristics at a glance (continued)
- Relay Output Modules: Characteristics at a Glance
- Digital Input/Output Modules: Characteristics at a Glance
- Sequence of Steps from Choosing to Commissioning the Digital Module
- Digital Module Parameter Assignment
- Diagnostics of the Digital Modules
- Terminal assignment of the SM 321; DI 32 x 24 VDC
- Digital Input Module SM 321 DI 16 x 24 VDC High Speed; (6ES7321-1BH10-0AA0)
- Synchronicity
- Assigning Parameters to SM 321; DI 16 x VDC 24
- Tolerances of the Input Delays of SM 321; DI 16 x VDC 24
- Behavior and Diagnostics of the SM 321; DI 16 x 24 VDC
- Diagnostic Messages of the SM 321; DI 16 x DC 24 V Causes of Error and Remedial Action
- Interrupts of the SM 321; DI 16 x 24 VDC
- Start Information of OB 40: Which Event Has Triggered the Hardware Interrupt at the Limit Value
- DI 16 x 24 VDC (Source Input)
- Module View and Block Diagram of Digital Input Module SM 321 DI 16 x 24/48VUC
- Module View and Block Diagram of SM 321; DI 16 x 48-125 VDC
- Module View and Block Diagram of the SM 321; DI 16 x 120/230VAC
- Module View and Block Diagram of the SM 321; DI 8 x 120/230 VAC
- Digital Input Module SM 321 DI 8 x 120/230 VAC ISOL (6ES7321-1FF10-0AA0)
- Digital Output Module SM 322 DO 32 x 24 VDC/ 0.5 A; (6ES7322-1BL00-0AA0)
- Terminal Assignment of the SM 322; DO 32 x 24 VDC
- Digital Output Module SM 322 DO 32 x VAC 120/230/1 A; (6ES7322-1FL00-0AA0)
- Terminal assignment of the SM 322; DO 32 x AC 120/230 V/1 A
- Digital Output Module SM 322 DO 16 x DC 24 V/ 0.5 A; (6ES7322-1BH01-0AA0)
- Module View and Block Diagram of the SM 322; DO 16 x 24 VDC/0.5 A
- Module View and Block Diagram of SM 322; DO 16 x 24/48 VUC
- Parameters of digital output module SM 322 DO 16 x UC24/48 V
- Structure of the data record for SM 322 DO 16 x UC 24/48 V
- Digital Output Module SM 322 DO 16 x VAC 120/230/1 A; (6ES7322-1FH00-0AA0)
- Digital Output Module SM 322; DO 8 x DC 24 V/ 0.5 A with diagnostic interrupt; (6ES7322-8BF00-0AB0)
- Assigning Parameters to the SM 322; DO 8 x 24 VDC/0.5 A
- Behavior and Diagnostics of the SM 322; DO 8 x 24 VDC/0.5 A
- Diagnostic Messages of the SM 322; DO 8 x 24 VDC/0.5 A
- Diagnostic Messages of the SM 322; DO 8 x 24 VDC/0.5 A Causes of Error and Remedial Action
- Interrupts of the SM 322; DO 8 x VDC 24/0.5 A
- Digital Output Module SM 322 DO 8 x VAC 120/230/2 A; (6ES7322-1FF01-0AA0)
- Digital Output Module SM 322 DO 8 x 120/230 VAC/2 A ISOL (6ES7322-5FF00-0AB0)
- Parameters of the SM 322; DO 8 x 120/230 VAC/2 A ISOL
- Diagnostic Messages of the SM 322; DO 8 x 120/230 VAC/2 A ISOL
- DO 16 x Rel. 120/230 VAC; (6ES7322-1HH01-0AA0)
- DO 16 x Rel. 120/230 VAC
- Relay Output Module SM 322 DO 8 x Rel. 230 VAC/5A; (6ES7322-5HF00-0AB0)
- Special Characteristic for Operation with a Safe Electrical Extra-Low Voltage
- SM 322; DO 8 x Rel. 230 VAC/5A parameterization
- Interrupts of the SM 322; DO 8 x Rel. 230 VAC/5A
- Digital Input/Output Module SM 323 DI 16/DO 16 x 24 VDC/0.5 A; (6ES7323-1BL00-0AA0)
- Terminal assignment of the SM 323; DI 16/DO 16 x 24 VDC/0.5 A
- Digital Input/Output Module SM 323 DI 8/DO 8 x VDC 24/0.5 A; (6ES7323-1BH01-0AA0)
- Digital Input/Output Module SM 327 DI 8/DX 8 x DC 24 V/0.5 A; parameterizable (6ES7327-1BH00-0AB0)
- Terminal assignment and block diagram of the SM 327 DI 8/DX 8 x DC 24 V/0.5 A, parameterizable
- Assigning Parameters to the SM 327; DI 8/DX 8 x VDC 24/0.5 A
- Re-readability of the outputs of the SM 327; DI 8/DX 8 x DC 24 V/0.5 A
- Analog Modules
- Analog Input Modules: Characteristics at a Glance
- Analog Input Modules: Characteristics at a glance (continued)
- Analog Output Modules: Characteristics at a Glance
- Analog Input/Output Modules: Characteristics at a Glance
- Sequence of Steps from Choosing to Commissioning the Module
- Analog Value Representation
- Analog Value Representation for Analog Input Channels
- Possible analog value resolutions
- Bipolar Input Ranges
- Voltage Measuring Ranges + 10 V to + 1 V
- Analog Value Representation in Current Measuring Ranges + 20 mA to + 3.2 mA
- Current Measuring Ranges 0 to 20 mA and 4 to 20 mA
- Analog value representation for RTD Resistance Temperature Detectors PT 100, 200, 500, 1000
- Analog value representation for RTD Resistance Temperature Detectors Ni100, 120, 200, 500, 1000, LG-Ni 1000
- Analog Value Representation for RTD Resistance Temperature Detectors Cu 10
- Analog value representation for thermocouples type B
- Analog value representation for thermocouples type E
- Analog value representation for thermocouples type K
- Analog value representation for thermocouples type N
- Analog value representation for thermocouples type T
- Analog Value Representation for Analog Output Channels
- Bipolar Output Ranges
- Analog Value Representation in Output Range +10 V
- Analog Value Representation in Output Range +20 mA
- Setting the Measuring Method and Measuring Ranges of Analog Input Channels
- Easing Measuring Range Modules from the Analog Input Module
- Inserting Measuring Range Modules into the Analog Input Module
- Behavior of the Analog Modules
- Effect of Range of Values of the Analog Values
- Effect of Operational Limit and Basic Error Limit
- Conversion, Cycle, Setting and Response Time of Analog Modules
- Example of the Influence of Smoothing on the Step Response
- Settling and Response times of the Analog Output Channels
- Analog Module Parameter Assignment
- Parameters of the Analog Input Modules
- Parameters of the Analog Output Modules
- Parameters of the analog input/output modules
- Connecting Sensors to Analog Inputs
- Connecting Isolated Sensors to an Isolated AI
- Connecting Non-Isolated Sensors to an Isolated AI
- Connecting non-isolated sensors to a non-isolated AI
- Connecting Voltage Sensors
- Connecting Current Sensors
- Connecting two-wire transmitters to an isolated AI
- Connecting Resistance Thermometers and Resistors
- Four-conductor connection of resistance thermometers to an isolated AI
- Two-Conductor Connection of Resistance Thermometers to an Isolated AI
- Connecting resistance thermometers to the SM 331; AI 8 x 13 bits
- Connecting Thermocouples
- Options for Compensation of the Reference Junction Temperature
- Connection of Thermocouples with Internal Compensation to an Isolated AI
- Connection of Thermocouples with Compensation Box to an Isolated AI
- M72166-xxx00) to an Isolated AI
- thermometers to the SM 331; AI 8 x TC
- Connecting Loads/Actuators to Voltage Outputs
- Connecting Loads to a Voltage Output of an Isolated AO over a Four-Conductor Connection
- Connecting Loads to a Voltage Output of a Non-Isolated AO over a Two-Conductor Connection
- Connecting Loads/Actuators to Current Outputs
- Diagnostics of the Analog Modules
- Diagnostic Messages of the Analog Input Modules
- Diagnostics Messages of the Analog Output Modules
- Diagnostics Messages of the Analog Output Modules, Causes of Errors and Remedial Measures
- Interrupts of the Analog Modules
- Commissioning the SM 331; AI 8 x 16 bits
- Assignment of Channels of the SM 331; AI 8 x 16 bits to Channel Groups
- Measuring Ranges of the SM 331; AI 8 x 16 bits
- Module View and Block Diagram of the SM 331; AI 8 x 16 bits
- Parameters of the SM 331; AI 8 x 16 bits
- channel mode
- Measuring Methods and Measuring Ranges of the SM 331; AI 8 x16 bits
- Calculation of the filter and processing time
- Commissioning the SM 331; AI 8 x 14 bits High Speed
- Parameters of the SM 331; AI 8 x 14 bits High Speed
- Measuring Ranges of the SM 331; AI 8 x 14 bits High Speed
- Parameters of the SM 331; AI 8 x 13 bits
- Measuring Methods of the SM 331; AI 8 x 13 bits
- Commissioning the SM 331; AI 8 x 12 bits
- Default Settings of the SM 331; AI 8 x 12 bits Using Measuring Range Modules
- Assignment of Channels of the SM 331; AI 8 x 12 bits to Channel Groups
- Measuring Ranges of the SM 331; AI 8 x 12 bits
- Analog Input Module SM 331; AI 8 x RTD (6ES7331-7PF00-0AB0)
- Module View and Block Diagram of the SM 331; AI 8 x RTD
- Commissioning the SM 331; AI 8 x RTD
- Assignment of Channels of the SM 331; AI 8 x RTD to Channel Groups
- Hardware filter 8 channels scan time
- Software filter 8 channels scan time
- Hardware filter 4 channels scan time
- Measuring Methods and Measuring Ranges of the SM 331; AI 8 x RTD
- Measuring ranges of the SM331; AI 8 x RTD
- Analog Input Module SM 331; AI 8 x TC (6ES7331-7PF10-0AB0)
- Module View and Block Diagram of the SM 331; AI 8 x TC
- Commissioning the SM 331; AI 8 x TC
- Assignment of Channels of the SM 331; AI 8 x TC to Channel Groups
- Measuring Methods and Measuring Ranges of the SM 331; AI 8 x TC
- Commissioning the SM 331; AI 2 x 12 bits
- Default Settings of the SM 331; AI 2 x 12 bits Using Measuring Range Module
- Measuring Ranges of the SM 331; AI 2 x 12 bits
- Commissioning the SM 332; AO 8 x 12 bits
- Output Ranges of the Analog Output Module SM 332; AO 8 x 12 bits
- Module View and Block Diagram of the SM 332; AO 4 x 16 bits
- Calculation of the processing time and the time for updating the output
- Commissioning the SM 332; AO 4 x 16 bit
- Output Ranges of the Analog Output Module SM 332; AO 4 x 16 bits
- Commissioning the SM 332; AO 4 x 12 bits
- Output Ranges of the Analog Output Module SM 332; AO 4 x 12 bits
- Commissioning the SM 332; AO 2 x 12 bits
- Output Ranges of the Analog Output Module SM 332; AO 2 x 12 bits
- Analog Input/Output Module SM334 AI 4/AO 2 x 8/8 bits; (6ES7334-0CE01-0AA0)
- Commissioning the SM 334; AI 4/AO 2 x 8/8 bits
- Module View and Block Diagram of the SM 334; AI 4/AO 2 x 12 bits
- Commissioning the SM 334; AI 4/AO 2 x 12 bits
- Measuring ranges of the SM 334;AI 4/AO 2 x 12 bits
- Output ranges of the SM 334;AI 4/AO 2 x 12 bits
- Special Signal Modules
- Module view of the simulator module SM 374; IN/OUT 16
- Dummy Module DM 370; (6ES7370-0AA01-0AA0)
- Module view of the dummy module DM 370
- Synchronous Operation
- Terminal Connection Diagram and Block Diagram
- Functions of the SM 338; POS INPUT
- Gray/Dual Converter
- Freeze Function
- SM 338; POS-INPUT Parameterization
- Parameters of the SM 338; POS-INPUT
- SM 338; POS-INPUT Addressing
- Diagnosis of the SM 338; POS-INPUT
- Diagnostic messages of the SM 338; POS INPUT
- Diagnostics Messages of the SM 338, Causes of Errors and Remedial Measures
- Interrupts of the SM 338; POS INPUT
- Technical Specifications of the 338; POS-INPUT
- Interface Modules
- Interface Module IM 360; (6ES7360-3AA01-0AA0)
- Front View of the Interface Module IM 360
- Interface Module IM 361; (6ES7361-3CA01-0AA0)
- Front View of the Interface Module IM 361
- Front View of the Interface Module IM 365
- RS 485 Repeater
- Application and Characteristics; (6ES7972-0AA01-0XA0)
- Appearance of the RS 485 Repeater; (6ES7972-0AA01-0XA0)
- RS 485 Repeater in Ungrounded and Grounded Operation
- Isolation between the Bus Segments
- Technical Specifications
- Block diagram of the RS 485 repeater
- SIMATIC TOP Connect and SIMATIC TOP Connect TPA
- Wiring Components
- Threading the Round-Sheath Ribbon Cable into the Connector
- Wiring the Front Connector Module
- Wiring Rules for Connecting the Supply Voltage
- Inserting the Connecting Cable into the Front Connector Module
- Front connector module for 32-channel digital modules
- Connecting the Connecting Cable to the Terminal Block
- Spring-loaded terminal block
- Wiring SIMATIC TOP Connect with Digital Modules
- Wiring the Module with Terminal Block for One-Conductor Connection
- Wiring a Digital Module with Terminal Block for a One-Conductor Connection
- Wiring the Module with Terminal Block for Three-Conductor Connection
- Wiring a Digital Module with Terminal Block for a Three-Conductor Connection
- Wiring the Module with Terminal Block for 2A Modules
- Wiring with Terminal Block for 2A Module
- Wiring SIMATIC TOP Connect TPA with Analog Modules
- SIMATIC TOP Connect TPA Terminal Assignment and Terminal Allocation
- Terminal Assignment of Analog Module to SIMATIC TOP connect TPA
- Connecting the Signal-Line Shield
- Connection Example
- A.1 How to Assign the Parameters for Signal Modules in the User Program
- A5E00105505
- A.3 Parameters of the Digital Output Modules
- A.4 Parameters of the Analog Input Modules
- A.5 Parameters of the SM 331; AI 8 x RTD
- A-13 Parameters of the SM 331; AI 8 x TC
- A-14 Codes of Operating Modes of the SM 331; AI 8 x TC
- A-16 Codes for the Measuring Ranges of the SM 331; AI 8 x TC
- A-17 Codes of Reaction to Open Thermocouple of the SM 331; AI 8 x TC
- A.7 Parameters of the SM 331; AI 8 x 13 bits
- A-19 Codes for temperature measurement of the analog input module
- A-22 Codes for temperature measurement of the analog input module
- A.8 Parameters of the SM 331; AI 8 x 16 bits
- A-26 Codes for the measuring ranges of the SM 331; AI 8 x16 bits
- A-28 Parameters of the Analog Output Modules
- A-29 Codes for the Output Ranges of the Analog Output Modules
- A-30 Parameters of the SM 332; AO 8 x 12 bits
- A-32 Parameters of the Analog Input/Output Modules
- A-33 Codes for the Measuring Ranges of the Analog Input/Output Modules
- B.1 Evaluating Diagnostic Data of the Signal Modules in the User Program
- B.2 Structure and Content of Diagnostic Data Bytes 0 to 7
- B.3 Channel-Specific Diagnostic Data from Byte 8
- B.4 Diagnostic Data of the SM 338; POS-INPUT
- C.1 Dimension Drawings of the Rails
- C-3 Dimension Drawing of the 830 mm Standard Rail
- C-5 Dimension Drawing of the Rail with 160 mm Standard Width
- C-7 Dimension Drawing of the Rail with 530 mm Standard Width
- C-9 Dimension Drawing of the 2000 mm Rail
- C-10 Complete Dimension Drawing of a Rail for "Insert and Remove" Function with Active Bus Module, S7-300 Module and Explosion-proof Partition
- C.2 Dimension Drawings of the Power Supply Modules
- C-13 Power Supply Module PS 307; 5 A
- C-14 Power Supply Module PS 307; 10 A
- C-15 Dimension Drawing of the Power Supply Module PS 307; 5 A with CPUs 313/314/315/315-2 DP. Front View
- C-16 Dimension Drawing of the Power Supply Module PS 307; 5 A with CPUs 313/314/315/315-2 DP. Side View
- C.3 Dimension Drawings of the Interface Modules
- C-19 Interface Module IM 365
- C.4 Dimension Drawings of the Signal Modules
- C.5 Dimension Drawings for Accessories
- C-22 SIMATIC TOP connect, 3-tier
- C-24 SIMATIC TOP connect, 1-tier
- C-26 RS 485 repeater on S7-300 rail
- E.1 What is ESD?
- E.2 Electrostatic Charging of Persons
- E.3 General Protective Measures Against Electrostatic Discharge Damage
- Glossary
- Index
- SIMATIC TOP Connect TPA
Simatic S7-300
Table of contents
- A5E00105475
- Memory concept
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Guide to the S7-300 documentation
- Table 1-3 Communication between sensors/actuators and the PLC
- Table 1-6 CPU performance
- Table 1-9 Supplementary features
- Operating and display elements
- Status and Error Indicators: CPU 31xC
- Operating and display elements: CPU 31x
- Operating and display elements: CPU 317-2 DP
- Operating and display elements: CPU 31x-2 PN/DP
- Operating and display elements: CPU 319-3 PN/DP
- Status and error displays of CPU 31x
- Communication
- PROFIBUS DP
- PROFINET (PN)
- Point to Point (PtP)
- Communication services
- PG communication
- OP communication
- Global data communication (MPI only)
- Routing
- Point-to-point connection
- Communication by means of PROFINET
- PROFINET IO System
- Blocks in PROFINET IO
- System status lists (SSLs) in PROFINET IO
- Table 3-9 Comparison of the System Status Lists of PROFINET IO and PROFIBUS DP
- Open communication via Industrial Ethernet
- SNMP communication service
- Assignment of S7 connections
- Distribution and availability of S7 connection resources
- Table 3-11 Availability of connection resources
- Connection resources for routing
- DPV1
- Memory areas and retentivity
- Retentivity of load memory, system memory and RAM
- Retentivity of memory objects
- Address areas of system memory
- Properties of the SIMATIC Micro Memory Card (MMC)
- Memory functions
- Handling with modules
- Deleting blocks
- CPU memory reset and restart
- Recipes
- Measured value log files
- Backup of project data to SIMATIC Micro Memory Card (MMC)
- Cycle and reaction times
- Calculating the cycle time
- Different cycle times
- Communication load
- Cycle time extension as a result of testing and commissioning functions
- Response time
- Shortest response time
- Longest response time
- Reducing the response time with direct I/O access
- Calculating method for calculating the cycle/response time
- Interrupt response time
- Reproducibility of Time-Delay and Watchdog Interrupts
- Sample of response time calculation
- Example of interrupt response time calculation
- Technical data of CPU 31xC
- Technical specifications of the Micro Memory Card (MMC)
- CPU 312C
- CPU 313C
- CPU 313C-2 PtP and CPU 313C-2 DP
- CPU 314C-2 PtP and CPU 314C-2 DP
- Technical data of the integrated I/O
- Analog I/O
- Parameterization
- Interrupts
- Diagnostics
- Digital inputs
- Digital outputs
- Analog inputs
- Analog outputs
- Technical data of CPU 31x
- Technical specifications of the SIMATIC Micro Memory Card (MMC)
- technical data
- CPU 315-2 DP
- CPU 315-2 PN/DP
- CPU 317-2 DP
- CPU 317-2 PN/DP
- CPU 319-3 PN/DP
- A.1 Information about upgrading to a CPU 31xC or CPU 31x
- A.1.2 Changed behavior of certain SFCs
- A.1.3 Interrupt events from distributed I/Os while the CPU status is in STOP
- A.1.5 Converting the diagnostic addresses of DP slaves
- A.1.7 Replacing a CPU 31xC/31x
- A.1.9 Load memory concept for the CPU 31xC/31x
- A.1.12 Changed retentive behavior for CPUs with firmware >= V2.1.0
- A.1.14 Using loadable blocks for S7 communication for the integrated PROFINET interface
- Glossary
- product information
Simatic S7-300
Table of contents
- System cabling for S7
- Table Of Contents
- Table Of Contents
- Safety notes
- Documentation guide
- Product overview
- Connecting
- Components
- Connectable I/O modules
- Wiring rules
- Connecting components
- Wiring the front connector module
- Connecting the connecting cable to the terminal module
- Connecting the actuators/sensors to the terminal module
- Wiring SIMATIC TOP connect to the I/O modules
- SIMATIC TOP connect - components and selection help
- S7-300 Compact CPU modules
- S7-300 digital modules
- S7-300 analog modules
- Note on connecting digital I/O modules
- Note on connecting the 2 A output module
- Note on connecting analog I/O modules
- Shield connection of the signal cables
- Connecting cable
- Technical specifications
- Electromagnetic compatibility
- Mechanical and climatic ambient conditions
- Technical specifications for front connector modules
- Technical specifications for terminal modules
- Technical specifications of front connector with single wires
- Environment
- A.1 Front connector modules
- A.2 Terminal modules
- A.2.2 Terminal modules for 50-pin connecting cables
- B.1 Front connector modules S7-300
- B.2 Circuit diagrams, terminal modules for 16-pin connecting cable
- B.3 Circuit diagrams, terminal modules for 50-pin connecting cable
- C.1 Accessories
- Index
Simatic S7-300
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- PLC S7-300, CPU Specifications CPU 312 IFM to CPU 318-2 DP
- Control and Display Elements
- Status and Fault Displays
- Mode Selector Switch
- Backup battery/accumulator
- Memory card
- MPI and PROFIBUS-DP Interface
- Clock and Runtime Meter
- Communication Options of the CPU
- CPU Communication Options
- Connection Resources for CPUs 312 IFM to 316-2 DP
- Principle of Connection Resource Allocation for CPU 318-2
- Test Functions and Diagnostics
- The Principle of Forcing with S7-300 CPUs (CPU 312IFM to 316-2DP)
- Diagnostics with STEP 7
- CPUs - Technical Specifications
- CPU 312 IFM
- Display of the States of the Interrupt Inputs of the CPU 312 IFM
- Front View of the CPU 312 IFM
- Wiring diagram of the CPU 312 IFM
- Basic Circuit Diagram of the CPU 312 IFM
- CPU 313
- CPU 314
- CPU 314IFM
- Start Information for OB 40 for the Interrupt Inputs of the Integrated I/Os
- Display of the States of the Interrupt Inputs of the CPU 314 IFM
- Front View of the CPU 314 IFM
- Characteristic Features of the Integrated Inputs and Outputs of the CPU 314 IFM
- Wiring diagram of the CPU 314 IFM
- Basic Circuit Diagram of the CPU 314 IFM (Special Inputs and Analog Inputs/Outputs)
- Basic Circuit Diagram of the CPU 314 IFM (Digital Inputs/Outputs)
- Connecting 2-wire measurement transducers to the analog inputs of CPU 314 IFM
- CPU 315
- CPU 315-2 DP
- CPU 316-2 DP
- CPU 318-2
- CPU 31x-2 as DP Master/DP
- Information on DPV1 Functionality
- DP Address Areas of the CPUs 31x-2
- CPU 31x-2 as DP Master
- Diagnostics of the CPU 31x-2 as DP Master
- Reading Diagnostic Data with STEP 7
- Diagnostics with CPU 31x-2 (315-2DP as of 315-2AF03)
- Diagnostic Addresses for DP Master and DP Slave
- Event Detection of the CPU 31x-2 as DP Master
- Evaluating RUN-STOP Transitions of the DP Slaves in the DP Master
- CPU 31x-2 as DP-Slave
- Transfer Memory in a CPU 31x-2 operating as DP Slave
- Example of an address area configuration for transfer memory
- Diagnosis of the CPU 31x-2 operating as DP-Slave
- Diagnosis with LEDs
- Reading Out the Diagnostic Data
- Event Detection of the CPU 31x-2 as DP Slave
- Format of the Slave Diagnostic Data
- Station Status 1 to 3
- Structure of Station Status 2 (Byte 1)
- Master PROFIBUS Address
- Module Diagnostics
- Station Diagnostics
- Byte x +4 to x +7 for Diagnostic and Hardware interrupt
- Interrupts
- Direct Data Exchange
- Diagnosis with Direct Communication
- Evaluation of the Station Failure of the Sender During Direct Communication
- Cycle time
- Response Time
- Shortest Response Time
- Longest Response Time
- Operating System Processing Times of the CPUs
- Process image update of the CPUs
- Update Time and SFB Runtimes
- Overview of the Bus Runtime on PROFIBUS-DP at 1.5 Mbps and 12Mbps
- Calculation Examples for Cycle Time and Response Time
- Interrupt response time
- Diagnostic Interrupt Response Times of the CPUs
- Calculation Example for the Interrupt Response Time
- Reproducibility of the Delay and Watchdog Interrupts of the CPUs
- Differences between CPU 3182 and CPUs 312 IFM to 3162 DP
- Sample Configuration
- The Differences Between the CPUs 312 IFM to 318 and Their Previous Versions
- B-1 Dimensioned Drawing of the CPU 312 IFM
- B-2 Dimensioned Drawing of the CPU 313/314/315/315-2 DP/316-2DP
- B-3 Dimensioned Drawing of the CPU 318-2
- B-4 Dimensioned Drawing of the CPU 314 IFM, Front View
- B-5 Dimensioned Drawing of the CPU 314 IFM, Side View
Simatic S7-300
Table of contents
- Table Of Contents
- Introduction
- Preparation
- Task
- Wiring
- Configuration
- Configuring CPU 317TF-3PN/DP in HW Config
- Configuring the F-DI signal module
- Configuring the F-DO signal module
- Configuring a drive in HW Config
- Downloading the hardware configuration to the target hardware
- Configuring a SINAMICS drive in S7T Config
- Message frame configuration of the drive
- Configuring the properties of the TF-CPU
- Interconnecting the safety data block with SINAMICS parameters
- Configuring safety functions on the drive
- Configuring an axis in S7T Config
- Programming
- Creating an S7 user program
- Editing the safety program
- Trial run
- Further Information
Simatic S7-300
Table of contents
- A5E00105492
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Preface
- SIMATIC Customer Support Hotline
- Quick Guide
- Potential isolation
- CPU performance
- Quick Guide: Installation
- Product overview
- S7-300 modules
- Horizontal and vertical installation of an S7-300
- Configuring
- Installation
- Horizontal and vertical installation
- Component dimensions
- Shielding terminal module
- Clearance
- Arranging modules on a single module rack
- Module rack with eight signal modules
- Arranging modules on multiple module racks
- Full assembly
- Selection and installation of cabinets
- Sample application: Selecting a cabinet
- Electrical assembly, protective measures and grounding
- S7-300 installation with grounded reference potential
- S7-300 configuration with grounded reference potential
- S7-300 configuration with floating reference potential
- Isolated or non-isolated modules?
- Configuration with isolated modules
- Configuration with non-isolated modules
- Grounding
- Overview: Grounding
- Grounding conception S7-300 with CPU 31xC
- Grounding conception S7-300 ( not with CPU 31xC)
- Selecting the load power supply unit
- Example: S7-300 with load power supply from PS 307
- Configuring a subnet
- Basics
- MPI/PROFIBUS-DP addresses
- Interfaces
- Network components
- Properties of PROFIBUS cables
- Bus connectors
- PG patch cord
- Cable length
- Lengths of stub cables per segment
- Network samples
- Example: Maximum distances in the MPI subnet
- Example of a PROFIBUS Subnet
- Example: CPU 314C-2 DP as MPI and PROFIBUS node
- Example of PG access across network boundaries (routing)
- Activation of the terminating resistors in an MPI subnet
- Module accessories
- Installing the profile rail
- Holes for mounting the 2-m profile rail
- Mounting holes for profile rails
- Free space required for an S7-300 installation
- Installing modules on the profile rail
- Label the modules
- Slot numbers for S7 modules
- Inserting slot numbers in modules
- Wiring
- Tools and material for wiring
- Bonding the protective conductor to the profile rail
- Adjusting the power supply module to mains voltage
- Wiring the power supply module and the CPU
- Wiring front connectors
- Move the front connector into wiring position
- Inserting front connectors into modules
- Labeling the module I/Os
- Connecting shielded cables to the shielding contact element
- Shielding contact element underneath two signal modules
- Connecting 2-wire cables to the shielding contact element
- Wiring the bus connector
- Bus connector: Enabled and disabled terminating resistor
- Addressing
- S7-300 slots and the corresponding module start addresses
- User-defined addressing of modules
- Addresses of the I/O of digital modules
- I/O Addresses of a digital module in Slot 4
- Addressing the integrated I/O of the CPU
- Integrated I/O of CPU 314 IFM
- Integrated I/O of CPU 313C
- Integrated I/O of CPU 314C-2 PtP/DP
- Consistent data
- Commissioning
- Testing functions, Diagnostics and Fault Elimination
- Recommended commissioning procedure - Part II: Software
- The commissioning checklist
- Maintenance
- Inserting or replacing a Memory Card or Micro Memory Card
- Inserting the Memory Card in the CPU31xC
- Commissioning modules
- Connecting a PG to multiple S7-300 PLCs
- Connecting a PG to a subnet
- PG connected to an ungrounded S7-300
- Initial power on
- Possible causes of a CPU request to reset memory
- Sequence of operation for resetting CPU memory with the mode selector switch
- Internal CPU events on memory reset
- Starting SIMATIC Manager
- Monitoring and controlling I/Os
- Commissioning PROFIBUS-DP
- DP address areas of the CPUs
- Commissioning the CPU as DP Master
- Event recognition by CPUs 31x-2 DP/31xC-2 DP operating as DP master
- Commissioning the CPU as DP slave
- Event recognition by CPUs 31x-2 DP/31xC-2 DP as DP slave
- Intermediate memory in CPU 31x-2 DP/31xC-2 DP as DP Slave
- Configuration example for the address areas in intermediate memory
- Direct data exchange
- Direct Data Exchange with CPUs 31x-2 DP/31xC-2 DP
- Operating System Backup
- Updating the Operating System
- Operating system update with MC/MMC
- Module replacement
- Unlocking the front connector and removing the module
- Removing the front connector coding pin
- Inserting the front connector
- Replacing the backup battery in CPU 313/314
- Digital output module AC 120/230 V: Replacing the fuses
- Location of fuses in the digital output module 120/230 VAC
- In this Chapter
- Principle of Forcing with S7-300 CPUs (all CPUs except 318-2 DP)
- Overview: Diagnostics
- Diagnostic options with STEP 7
- Diagnostics with LEDs
- Status and error displays of 31xC CPUs
- Status and error displays
- Evaluation of the SF LED (Software error)
- Evaluation of the SF LED (Hardware error)
- The BUSF, BUSF1 and BUSF2 LEDs
- Diagnostics of DP CPUs
- Diagnostic addresses for DP masters and DP slaves
- Diagnostics of DP CPUs operating as DP Slave
- Diagnostic address for the receiving station with direct data exchange
- Reading out diagnostic data in the master system, using STEP 5 and STEP 7
- Event recognition of CPUs 31x-2 operating as DP slave
- Interrupts at the DP master
- Structure of slave diagnostic data
- Structure of station status 1 (Byte 0)
- Structure of Station Status 3 (Byte 2)
- Structure of module diagnostics of CPU 31x-2
- Structure of the module status
- Structure of the interrupt status for CPU 31xC
- Byte y+4 to y+7 for Diagnostic/Process interrupts
- Appendix
- Mains voltage
- protection against electromagnetic interference
- Coupling mechanisms
- Five basic rules for insuring EMC
- EMC compatible installation of PLC
- Examples of an EMC compatible installation
- Example of an EMC compatible cabinet installation
- Keys for sample 1
- Example of EMC compatible wall-mounting
- Shielding of cables
- Equipotential bonding
- Cable routing inside buildings
- Outdoor cable routing
- Lightning and surge protection
- Lightning protection zone conception
- Rules for the transition point between lightning protection zones 1
- High-voltage protection of cables with the help of surge protection equipment
- Rules for the transition points between lightning protection zones 1 <-> 2 and higher
- Low-voltage protection for lightning protection zones 1 <-> 2
- Low-voltage protection for lightning protection zones 2 <-> 3
- Sample of a surge protection circuit for networked S7-300 PLCs
- How to protect digital output modules against inductive surge voltage
- Circuit for coils operated with DC voltage
- Safety of electronic control equipment
- Glossary
Simatic S7-300
Table of contents
- technical support
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- SINUMERIK Integrate AMB, AMC, AMM, Function Manual (FH) -
- Overview of functions
- Operating Concept
- Machine information
- Current control software
- Machine events - List view
- Machine events - Detailed view
- Evaluation of workflow actions
- Evaluation of diagnostics data
- Variable monitors – time Series – measurements and measurement series
- Operating diagrams
- Control elements of the diagrams for individual measurements
- Circularity test
- Equability test
- Universal axis test
- Variable monitors
- Deleting measurements and data points
- Test series on the machine
- Test requirements
- Prolog and epilog program for a measurement
- Program example
- Measurement commissioning
- Release protocol between PLC and SINUMERIK Integrate
- Archives
- Maintenance
- Remote access
- Setting up functions
- Configuring variable monitors
- Content
- Configuring measurements and measurement series
- Performing test series
- User-defined variables
- User-defined variables – Detailed view
- Fault services
- Control monitors - Detailed view
- Machine trigger, server trigger and conditions
- Machine trigger on "alarm group"
- Machine trigger on "PLC variable"
- Machine trigger for "PLC timeout trigger"
- Machine trigger on "new value of a user-defined variable"
- Combined machine trigger on "alarm group" and "PLC variable"
- Trigger on "Fault message on HMI"
- Machine trigger "Time trigger"
- Variable triggers
- Trigger on synchronization
- Trigger on control monitor script error
- Server trigger on "Measurement series reaches limit value"
- Server trigger on "Trigger on due maintenance tickets"
- Server trigger on "Variable monitor reaches limit value"
- Server trigger on "Cyclic trigger on variable monitors"
- Fault message on PC
- Server trigger on "Time trigger"
- Workflow actions
- Diagnostic actions
- SIMATIC S7
- Creating and uploading archives
- Global settings
- PLC and NC settings
- Copy
- Copying function settings to several machines
- Client-server communication
- Offline synchronization
- Monitoring of ePS services
- Making files available for download to the machine
- Organizational tasks
- Selecting a maintenance job on a machine
- Opening a maintenance job (PC)
- Executing/closing a maintenance job (control)
- Service cases - List view
- Service cases - Detailed view
- Requesting fault processing on the control
- Statistics/export
- Multi-machine views
- Summary of machine events
- Measuring series
- Reports
- Management
- Comparing Configurations
- Comparing installed components
- Import
- Active import processes
- Importing a directory (requires ActiveX)
- Export
- Synchronization overview
- Administration
- Addresses
- Users
- Maschines
- Editing the master data of a machine
- Creating a new machine as a copy
- Organizational data
- Exporting and importing a machine
- Download areas
- Personal settings
- Establishing a connection and
- Uploading an alarm model
- Synchronizing the machine
- Disconnecting the machine (on the control and on the PC)
- Repetition strategy
- Editing prolog and epilog program
- Cooperation areas
- Releasing a machine to an organization
- Machines in a cooperation area
- Client diagnostics
- Components of client diagnostics
- Performing a diagnostics session
- Other functions
- Configuring 1:N connections
- A.1 Useful functions of the various device classes
- A.2 Functions of the individual roles (privilege matrix)
- A.3 Abbreviations
Simatic S7-300
Table of contents
- technical support
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- ePS Network Services, Function Manual (FH) -
- Overview of functions
- Operating concept
- Machine Information
- Current control software
- Machine events - List view
- Machine events - Detailed view
- Evaluation of workflow actions
- Evaluation of diagnostics data
- Variable monitors – time series – measurements and measurement series
- Operating diagrams
- Control elements of the diagrams for individual measurements
- Circularity test
- Equability test
- Universal axis test
- Variable monitors
- Deleting measurements and data points
- Test series on the machine
- Requirements for performing the test
- Prolog and epilog program for a measurement
- Program example
- Commissioning measurements
- Release protocol between PLC and ePS system
- Archives
- Maintenance
- Remote access
- Setting up functions
- Configuring variable monitors
- Contents
- Configuring measurements and measurement series
- Performing a test series
- ePS variables
- ePS variables - Detailed view
- Fault services
- Control monitors - Detailed view
- Machine triggers, server triggers and conditions
- Machine trigger on "Alarm group"
- Machine trigger on "PLC variable"
- Machine trigger for "PLC timeout trigger"
- Machine trigger on "New value of an ePS variable"
- Combined machine trigger on "Alarm group" and "PLC variable"
- Machine trigger for "Time-based trigger"
- Trigger on "Fault message at HMI"
- Server trigger on "Measurement series reaches limit value"
- Server trigger on "Maintenance jobs due"
- Server trigger on "Variable monitor reaches limit value"
- Cyclic server trigger for variable monitors
- Server trigger for "Time-based trigger"
- Trigger on end of data acquisition (AMP function)
- Variable trigger
- Trigger on synchronization
- Trigger on malfunctioning control monitors
- Trigger on successful diagnostic action
- Trigger on unsuccessful diagnostic action
- Trigger on configuration change in a variable monitor
- Workflow actions
- Diagnostic actions
- Creating and uploading archives
- Global settings
- PLC and NC settings
- Copy
- Copying functions to several machines
- Client-server communication
- Offline synchronization
- Monitoring of ePS services
- Preparing files to be downloaded to the machine
- Organizational tasks
- Selecting a maintenance job on a machine
- Opening a maintenance job (PC)
- Executing/closing a maintenance job (control)
- Service cases
- Service cases - List view
- Service cases - Detailed view
- Requesting fault processing on the control
- Statistics/Export
- Multi-machine views
- Summary of machine events
- Measurement series
- Reports
- Comparing configurations
- Import
- Active import processes
- Importing a file
- Export
- Synchronization overview
- Management
- Addresses
- Users
- Machines
- SINUMERIK, SIMATIC S7
- Editing the master data of a machine
- Creating a new machine as a copy
- Organizational data
- Exporting and importing a machine
- Download areas
- Personal settings
- Establishing a connection and diagnostics
- Uploading an alarm model
- Synchronizing the machine
- Disconnecting the machine (on the control and on the PC)
- Repetition strategy
- Editing the prolog and epilog program
- Cooperation areas
- Releasing a machine to an organization
- Machines in a cooperation area
- Client diagnostics
- Components of client diagnostics
- Performing a diagnostics session
- Other functions
- Configuring 1:N connections
- A Appendix
- A.2 Functions of the various roles (privilege matrix)
- A.3 References
Simatic S7-300
Table of contents
- Table Of Contents
- Table Of Contents
- Requirements for Working with the Primer
- Hardware Requirements
- Software Requirements
- Other References for This Chapter
- Defining and Structuring the Control Task
- How Do You Design a Control Task?
- How to Define and Structure Your Control Task
- Installing and Wiring Your S7-300
- What Do You Need to Know Before you Start?
- How Do You Install Your S7-300?
- How Do You Wire Your S7-300?
- C79000-G7076-C500
- Programming Software
- How Do You Work with STEP 7?
- Working with the STEP
- This is How You Create a Project Structure!
- Configuring and Assigning Parameters to Your S7-300
- What is Configuring and Assigning Parameters?
- How to Configure and Assign
- First Perform a Memory Reset of Your CPU!
- How Do You Configure and Assign Parameters to Your S7-300?
- What Does a Configuration Table Look Like?
- Programming Logic Blocks with
- Procedure for Programming Blocks
- How Do You Create the Required Blocks?
- What are STL, LAD, and FBD?
- How Do You Program Blocks in STL?
- the Primer
- How Do You Program Blocks in LAD?
- How Do You Program Blocks in FBD?
- Downloading and Testing Your User Program
- Basic Procedure for Downloading and Testing
- How Do You Download the User Program to Your S7-300?
- What Do You Have to Know about Testing?
- How Do You Test Your STL Program?
- How Do You Test Your LAD Program?
- How Do You Test Your FBD Program?
Simatic S7-300
Table of contents
- technical support
- ec declaration of conformity
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Introduction
- Overview of functions
- data services
- Operating concept
- Maschine information
- Current control software
- Machine events – Detailed view
- Evaluation of workflow actions
- Evaluation of diagnostics data
- file list
- Variable monitors - Measurements and measurement series
- Operating diagrams
- Control elements of the diagrams for individual measurements
- Circularity test
- Equability test
- Universal axis test
- Variable monitors
- Test series on the machine
- Requirements for performing the test
- Prolog and epilog program for a measurement
- Program example
- Commissioning measurements
- Contour test
- Maintenance
- Remote access
- Functions of a service session
- Starting a service session
- Example of a session via remote access
- Granting permission to execute functions
- Contents
- Setting up a service conference call
- Remote control via the keyboard
- Setting up functions
- Configuring variable monitors
- Configuring measurements and measurement series
- Performing test series
- ePS variables
- ePS variables – Detailed view
- Fault services
- Control monitors – Detailed view
- Machine triggers and server triggers
- Machine trigger on "alarm group"
- Machine trigger on "PLC variable"
- Machine trigger for "PLC timeout trigger"
- Machine trigger on "new value of ePS variable"
- Combined machine trigger on "alarm group" AND "PLC variable"
- Machine trigger for "Time-based trigger"
- Trigger on "Fault message at HMI/PC"
- Server trigger on "Measurement series reaches limit value"
- Server trigger on "Maintenance jobs due"
- Server trigger on "Variable monitor reaches limit value"
- Cyclic server trigger for variable monitors
- Workflow actions
- Diagnostic actions
- Global settings
- Copying
- Copying functions to multiple machines
- Client/server communication
- Offline synchronization
- Monitoring ePS services
- Organizational tasks
- Selecting a maintenance job on a machine
- Opening a maintenance job (PC)
- Executing/closing a maintenance job (HMI)
- Service cases
- Service cases - List view
- Service cases – Detailed view
- Requesting fault processing at the HMI
- Statistics/export
- Multi-machine views
- Summary of machine events
- Measurement series
- Reports
- Import
- Active import processes
- Importing a file
- Export
- Overviews
- Management
- Addresses
- Users
- Machines
- Editing the master data of a machine
- Creating a machine in the form of a copy
- Organizational data
- Download areas
- Personal settings
- Establishing a connection and diagnostics
- Uploading an alarm model
- Synchronizing the machine
- Disconnecting the machine (at HMI and PC)
- Repetition strategy
- Editing the prolog and epilog program
- Cooperation areas
- Releasing a machine to an organization
- Machines in a cooperation area
- Client diagnostics
- Components of client diagnostics
- client configuration
- Performing a diagnostics session
- Other functions
- Configuring 1:N connections
- saving the configuration
- A.3 References
Simatic S7-300
Table of contents
- Table Of Contents
- A5E00272066
- Description
- Hardware Requirements
- Software Requirements
- Expert functions
- Table of the settings
- Setting up a STEP 7 project
- Create axis
- Measuring" function
- Drive configuration for SIMODRIVE 611U
- Important parameters on the SIMODRIVE 611U
- PROFIBUS message frame
- Adapting message frames individually
- Example: Expanding the process data area
- Disable the sign-of-life monitoring
- Activating a brake
- Activating braking sequential control in the axis
Simatic S7-300
Table of contents
- Manual, 08/2006,
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- General technical data
- Electromagnetic Compatibility
- Shipping and storage conditions for modules and backup batteries
- Mechanical and ambient climatic conditions for S7-300 operation
- Information on insulation tests, protection class, degree of protection and rated voltage of the S7-300
- SIPLUS S7-300 Modules
- Table 1-2 SIPLUS S7-300 Modules
- Mechanical and climatic environmental operating conditions for SIPLUS S7-300 modules
- Power supply modules
- Table 2-1 Reaction of the PS 305;(2 A) power supply module to atypical operating conditions
- Power supply module PS 307; 2 A; (6ES7307-1BA00-0AA0)
- Table 2-2 Reaction of the PS 307; 2A power supply module to atypical operating conditions
- PS 307; 5 A power supply module; (6ES7307-1EAx0-0AA0)
- Table 2-3 Reaction of the PS 307; 5A power supply module to atypical operating conditions
- PS 307; 10 A power supply module; (6ES7307-1KA00-0AA0)
- Table 2-4 Reaction of the PS 307; 10A power supply module to atypical operating conditions
- Digital modules
- Module overview
- Table 3-2 Digital input modules: Overview of properties (continued)
- Table 3-3 Digital output modules
- Table 3-5 Relay output modules
- Table 3-6 Digital IO modules
- Steps in selecting and commissioning the digital module
- Programming digital modules
- Diagnostics of digital modules
- How to protect digital modules from inductive overvoltages
- Digital input module SM 321; DI 32 x DC 24 V; (6ES7321-1BL00-0AA0)
- Digital output module SM 321; DI 32 x AC 120 V; (6ES7321-1EL00-0AA0)
- Digital input module SM 321; DI 16 x DC 24 V; (6ES7321-1BL02-0AA0)
- Digital input module SM 321; DI 16 x DC 24 V High Speed; (6ES7321-1BH10-0AA0)
- Isochronous mode
- Parameters of SM 321; DI 16 x DC 24 V
- Table 3-9 Assigning interrupt parameters to the inputs of SM 321; DI 16 x DC 24 V
- Diagnostics of SM 321; DI 16 x DC 24 V
- Table 3-12 Diagnostic Messages of the SM 321; DI 16 x DC 24 V, causes of error and troubleshooting
- Interrupts of SM 321; DI 16 x DC 24 V
- Digital input module SM 321; DI 16 x DC 24 V; source reading; (6ES7321-1BH50-0AA0)
- Digital input module SM 321; DI 16 x 24/48 VUC (6ES7321-1CH00-0AA0)
- Digital input module SM 321; DI 16 x 48-125 VDC; (6ES7321-1CH20-0AA0)
- Digital input module SM 321; DI 16 x 120/230 VAC (6ES7321-1FH00-0AA0)
- Digital input module SM 321; DI 8 x 120/230 VAC (6ES7321-1FH01-0AA0)
- Digital input module SM 321; DI 8 x 120/230 VAC ISOL (6ES7321-1FF10-0AA0)
- Digital output module SM 322; DO 32 x 24 VDC/ 0.5 A; (6ES7322-1BL00-0AA0)
- Digital output module SM 322; DO 32 x 120/230 VAC/1 A; (6ES7322-1FL00-0AA0)
- Digital output module SM 322; DO 16 x 24 VDC/ 0.5 A; (6ES7322-1BL01-0AA0)
- Digital output module SM 322; DO 16 x DC 24 V/ 0.5 A High Speed; (6ES7322-1BL01 0AA0)
- Digital output module SM 322; DO 16 x UC 24/48 V; (6ES7322-5GH00-0AB0)
- Parameters of the digital output module SM 322 DO 16 x UC24/48 V
- Table 3-16 Structure of the data record for SM 322 DO 16 x UC 24/48 V
- Digital output module SM 322; DO 16 x AC 120/230 V/1 A; (6ES7322-1FH00-0AA0)
- Digital output module SM 322; DO 8 x DC 24 V/ 2 A; (6ES7322-1BF01-0AA0)
- Parameters of SM 322; DO 8 x DC 24 V/0.5 A
- Diagnostics of SM 322; DO 8 x DC 24 V/0.5 A
- Table 3-20 Diagnostic messages of SM 322; DO 8 x DC 24 V/0.5 A, causes of error and troubleshooting
- Table 3-21 Influence of the CPU operating state and of the supply voltage L+ of SM 322; DO 8 24 VDC/0.5 A on output values
- Interrupts of SM 322; DO 8 x DC 24 V/0.5 A
- Digital output module SM 322; DO 8 x DC 48-125 V/1.5 A; (6ES7322-1CF00-0AA0)
- Digital output module SM 322; DO 8 x AC 120/230 V/2 A; (6ES7322-1FF01-0AA0)
- Digital output module SM 322; DO 8 x AC 120/230 V/2 A ISOL (6ES7322-5FF00-0AB0)
- Parameters of SM 322; DO 8 x AC 120/230 V/2 A ISOL
- Diagnostics of SM 322; DO 8 x AC 120/230 V/2 A ISOL
- Relay output module SM 322; DO 16 x Rel. AC 120/230 V; (6ES7322-1HH01-0AA0)
- Relay output module SM 322; DO 8 x Rel. AC 230 V; (6ES7322-1HF01-0AA0)
- Relay output module SM 322; DO 8 x Rel. AC 230V/5A; (6ES7322-5HF00-0AB0)
- Parameters of SM 322; DO 8 x Rel. AC 230V/5A
- Interrupts of SM 322; DO 8 x Rel. AC 230V/5A
- Digital IO module SM 323; DI 16/DO 16 x DC 24 V/0.5 A; (6ES7323-1BL00-0AA0)
- Digital IO module SM 323; DI 8/DO 8 x DC 24 V/0.5 A; (6ES7323-1BL01-0AA0)
- Digital IO module SM 327; DI 8/DO 8 x DC 24 V/0.5 A; programmable (6ES7327-1BH00 0AB0)
- Parameters of SM 327; DI 8/DX 8 x DC 24 V/0.5 A
- Overview
- Wiring electrically isolated transducers
- Wiring electrically non-isolated transducers
- Connecting voltage transducers
- Connecting current transducers
- Wiring resistance thermometers and resistors
- Wiring thermocouples
- Table 4-1 Options of compensating the reference junction temperature
- Connecting thermocouples with internal compensation
- Connecting thermocouples with external compensation
- Table 4-2 Ordering data of the reference junction
- Connecting loads/actuators to analog outputs
- Connecting loads/actuators to voltage outputs
- Connecting loads/actuators to current outputs
- Representation of the analog values of analog modules
- Representation of the analog values of analog input channels
- Table 5-3 Bipolar input ranges
- Table 5-5 Representation of analog values in the ±1 V to ±10 V voltage measuring range
- Table 5-7 Representation of analog values in the 1 V to 5 V and 0 V to 10 V voltage measuring ranges
- Table 5-9 Representation of analog values in the 0 mA to 20 mA and 4 mA to 20 mA current measuring ranges
- Table 5-11 Presentation of analog values for resistance thermometers PT 100, 200, 500,1000 and PT 10, 50,100, 500 GOST (0.003850) standard
- Table 5-13 Presentation of analog values for resistance thermometers Pt 100, 200, 500,1000 und Pt 10, 50, 100, 500 GOST (0.003850) Klima
- Table 5-15 Representation of the analog values of Ni 100, 120, 200, 500, 1000 and LG-Ni 1000 resistance thermometers
- Table 5-17 Representation of the analog values of Ni 100 GOST Klima resistance thermometers
- Table 5-19 Representation of the analog values of Cu 10 resistance thermometers
- Table 5-21 Representation of the analog values of Cu 10, 50, 100, 500 GOST Standard resistance thermometers
- Table 5-23 Representation of the analog values of thermocouples type C
- Table 5-25 Representation of the analog values of thermocouples type J
- Table 5-27 Representation of the analog values of thermocouples type L
- Table 5-29 Representation of the analog values of thermocouples type R, S
- Table 5-31 Representation of the analog values of thermocouples type U
- Representation of the analog values of analog output channels
- Table 5-35 Representation of analog values in the ±10 V output range
- Table 5-37 Representation of analog values in the ±20 mA output range
- Setting the measuring method and ranges of analog input channels
- Reactions of the analog modules
- Table 5-39 Dependencies of the analog IO values on the CPU's operating State and on the L supply voltage
- Influence of the range of analog values
- Influence of operational limits and basic error limits
- Conversion and cycle times of analog modules
- Settling and response times of analog output channels
- Programming analog modules
- Diagnostics functions of analog modules
- Diagnostic messages of analog input modules
- Causes of error and troubleshooting at analog input modules
- Interrupts of analog modules
- Analog modules
- Steps from the selection of analog modules to commissioning
- Table 6-2 Analog input modules: Overview of properties (continued)
- Analog output modules:
- Analog IO modules:
- Analog input module SM 331; AI 8 x 16 Bit; (6ES7331-7NF00-0AB0)
- Measuring methods and ranges
- Additional information on SM 331; AI 8 x 16 bit
- Analog input module SM 331; AI 8 x 16 Bit; (6ES7331-7NF10-0AB0)
- Adjustable parameters
- Additional information to SM 331; AI 8 x 16 Bit
- Analog input module SM 331; AI 8 x 14 Bit High Speed; synchronous; (6ES7331-7HF0x 0AB0)
- Additional information on SM 331; AI 8 x 14 Bit High Speed, isochronous
- Analog input module SM 331; AI 8 x 13 Bit;(6ES7331-1KF01-0AB0)
- Additional information to SM 331; AI 8 x 13 Bit
- Additional information to SM 331; AI 8 x 12 Bit
- Analog input module SM 331; AI 2 x 12 bit; (6ES7331-7KB02-0AB0)
- Additional information to SM 331; AI 2 x 12 bit
- Analog input module SM 331; AI 8 x RTD; (6ES7331-7PF01-0AB0)
- Einstellbare Parameter
- Additional information to SM 331; AI 8 x 16 RTD
- Analog input module SM 331; AI 8 x TC; (6ES7331-7PF11-0AB0)
- Additional information on SM 331; AI 8 x TC
- Table 6-31 Content of the 4 bytes of additional OB40 information during hardware or end of cycle interrupts
- Analog output module SM 332; AO 8 x 12 Bit; (6ES7332-5HF00-0AB0)
- Output ranges SM 332; AO 8 x 12 Bit
- Additional information to SM 332; AO 8 x 12 Bit
- Analog output module SM 332; AO 4 x 16 bit; isochronous; (6ES7332-7ND02-0AB0)
- Output ranges SM 332; AO 4 x 16 Bit
- Additional information to SM 332; AO 4 x 16 Bit
- Analog output module SM 332; AO 4 x 12 Bit; (6ES7332-5HD01-0AB0)
- Output ranges SM 332; AO 4 x 12 Bit
- Additional information to SM 332; AO 4 x 12 Bit
- Analog output module SM 332; AO 2 x 12 Bit; (6ES7332-5HB01-0AB0)
- Output ranges SM 332; AO 2 x 12 Bit
- Additional information to SM 332; AO 2 x 12 Bit
- Analog IO module SM 334; AI 4/AO 2 x 8/8 Bit; (6ES7334-0CE01-0AA0)
- Operating principle of SM 334; AI 4/AO 2 x 8/8 Bit
- Measuring method/output type of SM 334; AI 4/AO 2 x 8/8 bit
- Additional information to SM 334; AI 4/AO2 x 8/8 bit
- Additional information to SM 334; AI 4/ AO 2 x 12 bit
- Other signal modules
- Simulator module SM 374; IN/OUT 16; (6ES7374-2XH01-0AA0)
- Dummy module DM 370; (6ES7370-0AA01-0AA0)
- Table 7-2 Meaning of the switch settings of dummy module DM 370
- Position decoder module SM 338; POS-INPUT; (6ES7338-4BC01-0AB0)
- Functions of SM 338; POS-INPUT; encoder value acquisition
- Transferred encoder value and scaling
- Freeze function
- SM 338; POS-INPUT programming
- SM 338; POS-INPUT addressing
- Diagnostics of SM 338; POS-INPUT
- Table 7-6 Diagnostics messages of SM 338, causes of error and troubleshooting
- Interrupts of SM 338; POS-INPUT
- Interface modules
- Interface module IM 360; (6ES7360-3AA01-0AA0)
- Interface module IM 361; (6ES7361-3CA01-0AA0)
- Interface module IM 365; (6ES7365-0BA01-0AA0)
- RS 485 Repeater
- Fields of application and properties; (6ES7972-0AA01-0XA0)
- Design of the RS 485 Repeater; (6ES7972-0AA01-0XA0)
- RS 485 Repeater in ungrounded and grounded operation
- Technical data
- A.1 Principles of programming signal modules in the user program
- A.2 Parameters of digital input modules
- A.3 Parameters of digital output modules
- A.4 Parameters of analog input modules
- Table A-5 Noise suppression codes of analog input modules
- A.5 Parameters of analog input module SM 331; AI 8 x RTD
- Table A-8 Operating mode codes of SM 331; AI 8 x RTD
- Table A-10 Measuring range codes of SM 331; AI 8 x RTD
- Table A-11 Temperature coefficient codes of SM 331; AI 8 x RTD
- Table A-12 Smoothing codes of SM 331; AI 8 x RTD
- A.6 Parameters of analog input module SM 331; AI 8 x TC
- Table A-14 Operating mode codes of SM 331; AI 8 x TC
- Table A-15 Noise suppression codes of SM 331; AI 8 x TC
- Table A-17 Codes of the reaction to open thermocouple of SM 331; AI 8 x TC
- A.7 Parameters of analog input module SM 331; AI 8 x 13 Bit
- Table A-19 Temperature measurement codes of the analog input module
- Table A-21 Measuring ranges codes of the analog input module
- A.8 Parameters of analog input module SM 331; AI 8 x 16 Bit
- Table A-24 Operating mode codes of SM 331; AI 8 x 16 Bit
- Table A-26 Measuring range codes of SM 331; AI 8 x 16 Bit
- A.9 Parameters of analog output modules
- A.10 Parameters of analog output module SM 332; AO 8 x 12 Bit
- A.11 Parameters of analog IO modules
- Table A-33 Measuring range codes of analog IO modules
- B.1 Evaluating diagnostic data of signal modules in the user program
- B.2 Structure and content of diagnostics data bytes 0 to 7
- B.3 Channel-specific diagnostics data, starting at byte 8
- B.4 Diagnostics data of SM 338; POS-INPUT
- C.1 Dimensional drawings of the mounting rails
- C.1.1 Bus modules
- C.2 Dimensional drawings of the power supply modules
- C.3 Dimensional drawings of the interface modules
- C.4 Dimensional drawings of the signal modules
- C.5 Dimensional drawings of accessories
- Table D-1 Accessories and spare parts
- E.1 Definition of ESD
- E.2 Electrostatic charging of the body
- E.3 Basic protective measures against electrostatic discharge
- G.1 List of abbreviations
- Glossary
- Index
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