Allen-Bradley OptiSIS 1711-P05SISID050S User Manual
  1. Manuals
  2. Brands
  3. Allen-Bradley Manuals
  4. Control Unit
  5. OptiSIS 1711-P05SISID050S
  6. User manual
Allen-Bradley OptiSIS 1711-P05SISID050S User Manual

Allen-Bradley OptiSIS 1711-P05SISID050S User Manual

Safety instrumented system
Hide thumbs Also See for OptiSIS 1711-P05SISID050S:
Table of Contents

Advertisement

Quick Links

Download this manual
User Manual
Original Instructions
OptiSIS® Safety Instrumented System
Catalog Numbers 1711-P05SISID050S, 1711-P05SISID050T, 1711-P05SISOD050S, 1711-P05SISOD050T, 1711-P05SISID100S,
1711-P05SISID100T, 1711-P05SISOD100S, 1711-P05SISOD100T
AB PLCs

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the OptiSIS 1711-P05SISID050S and is the answer not in the manual?

Questions and answers

Related Manuals for Allen-Bradley OptiSIS 1711-P05SISID050S

Summary of Contents for Allen-Bradley OptiSIS 1711-P05SISID050S

  • Page 1 User Manual Original Instructions OptiSIS® Safety Instrumented System Catalog Numbers 1711-P05SISID050S, 1711-P05SISID050T, 1711-P05SISOD050S, 1711-P05SISOD050T, 1711-P05SISID100S, 1711-P05SISID100T, 1711-P05SISOD100S, 1711-P05SISOD100T AB PLCs...
  • Page 2 Important User Information Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.

  • Page 3: Table Of Contents

    Table of Contents Summary of Changes ..........7 Preface .
  • Page 4 Table of Contents Chapter 4 Connect Field Wiring Grounding Requirements ........29 Input Wiring .
  • Page 5 Table of Contents Chapter 9 Operation Monitor System State......... . 79 System Status .
  • Page 6 Table of Contents Appendix D Safety Checklist Checklist ........... . 121 Appendix E Modbus Communication Address Modbus RTU Settings.

  • Page 7: Summary Of Changes

    Summary of Changes This manual contains new and updated information as indicated in the following table. Topic Page Updated section: Digital and Relay Output Wiring Updated chapter: Configure I/O (Chapter Updated chapter: Configure Logic (Chapter Added chapter: Communication (Chapter Added appendix: Offline Configuration Tool (Appendix Added appendix: Specifications (Appendix...
  • Page 8 Summary of Changes Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 9: Preface

    Preface About This Publication The OptiSIS® solution is a ready to install configurable logic solver for use in Safety Instrumented System (SIS) applications. Once installed and wired, it can be configured and tested to provide a complete SIS solution that can meet application requirements up to SIL 3.

  • Page 10: About The Optisis Solution

    Preface About the OptiSIS Solution The OptiSIS solution is a packaged, pre-built, pre-programmed safety instrumented system (SIS) logic solver that you mount, wire, and configure as part of a complete SIS solution. The solution can meet application requirements up to SIL 3. The solution uses a Rockwell Automation® industrial computer, AADvance®...

  • Page 11: Additional Resources

    You can view or download publications at http://www.rockwellautomation.com/literature/. To order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative. AB PLCs Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...
  • Page 12 Preface Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 13: Safety Requirements

    Chapter Safety Requirements Introduction The certification authority Technischer Überwachungs-Verein (TÜV) independently certifies that the AADvance control system meets the requirements of IEC 61508 SIL 3. The OptiSIS solution is designed and implemented in accordance with the requirements of the AADvance Controller Safety Manual, publication ICSTT-RM446.

  • Page 14: Fault Tolerant System

    Chapter 1 Safety Requirements Fault Tolerant System The Fault Tolerant architecture option means that the failure of a channel or module does not degrade the applied safety integrity level, or result in the loss of function and the resulting taking the process to the safe state. The actual behavior under fault conditions is also dependent on configuration options.

  • Page 15: Process Safety Lifecycle, Functional Testing, And Validation

    Safety Requirements Chapter 1 Process Safety Lifecycle, ATTENTION: Follow the Process Safety Lifecycle as described in the Functional Testing, and AADvance Controller Safety Manual, publication ICSTT-RM446. Validation Before putting the system into operation, perform a pre-startup acceptance test (PSAT) which is a functional test of the safety instrumented system (SIS). The PSAT must be a documented and recorded test procedure that includes (but is not limited to) the following: •...

  • Page 16: Pfd/Pfh Data

    Chapter 1 Safety Requirements PFD/PFH Data Reliability, PFD, and PFH data is published in the PFHavg and PFDavg Data for AADvance Controllers, publication ICSTT-RM449. Password Protection The HMI has a security model that is built in to restrict access to specific functions.

  • Page 17: Program Enable Key

    Safety Requirements Chapter 1 ATTENTION: The OptiSIS has an auto-logout feature. The User Logon Session Timeout Warning display automatically appears after 20 minutes of inactivity and lets you refresh the application before completing the automatic log-off process. All users are automatically logged off after 20 minutes of inactivity to Default.

  • Page 18: Diagnostics

    Chapter 1 Safety Requirements Diagnostics The AADvance controller embodies sophisticated internal diagnostic systems to identify faults that develop during operation and raise appropriate alarm and status indications. The diagnostic systems run automatically and check for system faults that are associated with the controller (processor and I/O modules) and field faults that are associated with field I/O circuits.

  • Page 19: Introduction

    Chapter Installation This chapter provides basic background information about the solution and instructions for installation. ATTENTION: You must use installation and commissioning procedures that comply with applicable standards of the country of installation. The applicable standards can include, for example, IEC 61511, NFPA72, and ISA 84.00.01, depending on the location.
  • Page 20 Chapter 2 Installation Figure 4 - OptiSIS Solution – External View Figure 5 - OptiSIS Solution – Internal View Power Distribution Industrial Computer (Mounted on Door) AADvance Controller CPU and I/O Modules Logic Write Keyswitch (Mounted on Door) Power Supplies Customer Field Terminals Customer Field Terminals Power Feeds...

  • Page 21: Installation

    Installation Chapter 2 Figure 6 - HMI- USB Port Location 6181X Bottom View 6181P Bottom View 6181P Front View USB Ports Hinged Door Covering the USB Ports ATTENTION: The bottom side USB ports on the 6181X HMI are functionally hot-pluggable in an environment that is known to be nonhazardous. For European Zone 2 applications, do not use the USB ports unless the area is known to be nonhazardous.

  • Page 22: Inspection

    IMPORTANT The standard unit is meant to be installed in a nonhazardous environment. For additional environmental needs for your SIS, contact your local Allen-Bradley distributor or Rockwell Automation sales representative. Wall Mount — 50 I/O Solution ATTENTION: Crush hazard! Dropping of the unit can lead to personal injury and/or component damage.
  • Page 23 Installation Chapter 2 2. Place the enclosure on the wall in the desired location and verify that it is level. Wall Mount Bracket 800 mm (32 in.) 3. Secure the wall mount bracket. AB PLCs Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 24: Floor Mount - 100 I/O Solution

    Chapter 2 Installation Floor Mount — 100 I/O Solution ATTENTION: Crush hazard! Dropping of the unit can lead to personal injury and/or component damage. Always support the unit fully during installation; use an assistant. 1. Determine the mounting location and verify that the location is suitable for the solution by checking the following: •...

  • Page 25: Connect Power

    Chapter Connect Power Introduction The OptiSIS solution uses standard Allen-Bradley® power supplies and redundancy modules. The OptiSIS solution accepts dual power feeds of the same, or different, voltages. See detailed power distribution drawings for power details. IMPORTANT The A and B power feeds do not have to be the same.

  • Page 26: Power Cable Types/Recommendations

    Chapter 3 Connect Power There are two ground connections that must be connected before power is applied to the system. • The AC safety ground is provided to help protect personnel from electric shock under fault conditions. Internally, all exposed metal surfaces, for example, cabinets, racks, and chassis ground connections, are connected to this termination point.

  • Page 27: Cable Entry

    Connect Power Chapter 3 Cable Entry Verify that cable sizes, wires, and cabinet penetrations for incoming cables are to local regulations, specifications, and requirements. Bottom Entry Conduit Cable entry is through the bottom gland plate (NEMA 4 models only) for both the 50 I/O and 100 I/O solutions.

  • Page 28: Cable Installation

    2. Crimp compression lugs with manufacturer recommended tools. 3. To verify field wire connection points, use the electrical schematics. Power Layout The OptiSIS solution uses standard Allen-Bradley power supplies and redundancy modules. The system design accommodates dual inputs of 24V DC, 110…240V AC, and/or 110…300V DC.

  • Page 29: Grounding Requirements

    Chapter Connect Field Wiring Grounding Requirements IMPORTANT Analog and digital inputs support a signal ground (default) and also provide a place to terminate a shield/screen to maintain signal quality. When external field device power is used, it must be kept separate from the signal wiring to minimize signal noise.
  • Page 30 Chapter 4 Connect Field Wiring Figure 9 - Digital Input (Field Powered) 24V DC Input 24V DC Channel – 0V DC 0V DC End-user to remove jumper Figure 10 - Analog Input (OptiSIS Solution Powered) 24V DC Input Channel – 0V DC Figure 11 - Analog Input (Field Powered) 24V DC...
  • Page 31 Connect Field Wiring Chapter 4 Figure 12 - Analog Input (OptiSIS Solution Powered, 3-wire Transmitter) 24V DC Input Device Power Channel – Device Signal Device Signal/ Power Return 0V DC Figure 13 - Analog Input (OptiSIS Solution Powered, 4-wire Transmitter) 24V DC Input Channel...

  • Page 32: Analog Output Wiring

    Chapter 4 Connect Field Wiring Analog Output Wiring Figure 14 - Analog Output Wiring Analog 24V DC Output Channel Device Signal + – Load Device Signal – 0V DC Digital and Relay Output Figure 15 - Relay Wiring Legend DO Power Line Wiring Terminal Block DO Return Line...

  • Page 33: Contact Derating

    Connect Field Wiring Chapter 4 Figure 16 - N.O. Contact for a Normally De-energized Output (Parallel Contacts, Energize to Trip) Customer Power Link Load Customer Return Link Figure 17 - N.C. Contact for a Normally Energized Output (Series Contacts, De-energize to Trip) Customer Power Load Load...
  • Page 34 Chapter 4 Connect Field Wiring Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 35: First-Time Powerup

    Chapter Startup First-time Powerup Follow these steps the first time you apply power to the OptiSIS solution. 1. Switch all circuit breakers to the Off position and open all fuses. 2. Energize the power feed and verify voltage at main incoming terminals. 3.
  • Page 36 Chapter 5 Startup For simple and quick navigation, you can access and progress through multiple pages of a display by pressing the arrows at the bottom of the display. Notice the green dot at the center bottom of each display for orientation. Navigation arrows are available on most displays and loop at end of sequence.

  • Page 37: Operator

    Startup Chapter 5 Operator The Operator display is the first display that appears. You can access and progress through the Cause and Effect charts by pressing the arrows at the bottom of the display. You can also press a specific chart navigation button to go to that Cause and Effect chart.

  • Page 38: Maintenance

    Chapter 5 Startup Maintenance This Maintenance display has four pages. Access and progress through multiple pages of a display by pressing the arrows at the bottom of the display. Figure 24 - Maintenance Display – System Status Figure 25 - Maintenance Display – I/O Configuration Figure 26 - Maintenance Display –...

  • Page 39: Alarm

    Startup Chapter 5 Figure 27 - Maintenance Display – Configuration Load/Save Alarm Use the Alarm display to view the unit alarms. Figure 28 - Alarm Display AB PLCs Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 40: Warning

    Chapter 5 Startup Warning Use the Warning display to view a listing of all unit warnings. • Level 1 Warnings: Conditions are preventing unit operation. • Level 2 Warnings: Unit functions are disabled or bypassed. These include suppressed alarms and trips, forced inputs, and forced outputs. Figure 29 - Warning Display Help The Help display has five pages.

  • Page 41: Connect Peripherals

    Startup Chapter 5 Figure 31 - Help Display – Screen Navigation and Logic Functions Figure 32 - Help Display – Alarm, Warning, Maintenance, and Security Symbols Connect Peripherals You can connect peripherals, such as a keyboard and mouse, to the corresponding USB ports on the bottom side of the HMI.

  • Page 42: Application Accounts

    Chapter 5 Startup Application Accounts The OptiSIS solution initially loads and is operational without logging in. On load, the initial user account is ‘Default’ . TIP On the main icon toolbar, the Current User is listed. Configure User Accounts on page 44 for instructions on how to change your password.
  • Page 43 Startup Chapter 5 4. Type the User name and press Enter on the keyboard. The keyboard disappears. TIP User names are not case-sensitive. 5. Press in the Password field. A keyboard appears. 6. Type the Password and press Enter on the keyboard. The keyboard disappears.

  • Page 44: Configure User Accounts

    Chapter 5 Startup Configure User Accounts The HMI application has default user account information, however, it is possible to change the password for a specific user role. To update the password, follow these steps. 1. Navigate to the Maintenance display by pressing 2.

  • Page 45: Log Out Current User

    Startup Chapter 5 5. Type the old password and press Enter on the keyboard. 6. Press the New password field. A keyboard appears. 7. Type the new password and press Enter on the keyboard. 8. Press the Confirm password field. A keyboard appears.
  • Page 46 Chapter 5 Startup Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 47: Configure I/O Points

    Chapter Configure I/O ATTENTION: If I/O configuration or Cause and Effect logic changes are performed while process is operational (online changes), then a formal Management of Change (MOC) process must be followed. The process includes, but is not limited to, an impact analysis of the change, documented implementation and test procedures, and identification of any additional measures that are required while the change is made.
  • Page 48 Chapter 6 Configure I/O Table 4 - Configuration Parameters Category Item Data Type Description Analog Output Channel Enabled Boolean Channel enabled: 0 = disabled, 1 = enabled Conditioning Description String Device description Tag Name String Tag name Channel Type Boolean Analog output mode: 0 = AI repeat, 1 = Cause and Effect output AI Repeat DINT...

  • Page 49: Configure An I/O

    Configure I/O Chapter 6 Configure an I/O IMPORTANT To configure your I/O with the Offline Configuration Tool, see Appendix These steps explain how to configure the fundamental characteristics for an input, output, internal parameter, or Modbus input. TIP You must be in Configuration mode to change characteristics. IMPORTANT Internal parameters and Modbus inputs are enabled by default and are selectable by the Cause and Effect charts.
  • Page 50 Chapter 6 Configure I/O 5. To configure a particular channel, press the channel. A configuration faceplate opens. 6. To enable the channel, check Channel Enabled. IMPORTANT If Channel Enabled is not selected, then all other parameters are not seen. Checking and clearing Channel Enable causes parameters to revert to a default state.
  • Page 51 Configure I/O Chapter 6 7. To configure a channel, follow these steps. a. Press in the description field. A keyboard appears. IMPORTANT The keyboard is a standard FactoryTalk® keyboard. Update Field is not configured for use in the OptiSIS solution. Press Enter to store parameter values.

  • Page 52: Configure Analog Input Characteristics

    Chapter 6 Configure I/O Configure Analog Input Characteristics After the input is created by enabling the channel, entering a description, and naming the tag, you can configure the characteristics of the analog input. TIP Unconfigured points return a tag name of 'DISABLED' and a description of 'Spare Channel’...
  • Page 53 Configure I/O Chapter 6 To configure the analog input, follow these steps. 1. In Channel Type, press Analog Input. The analog input characteristics appear. 2. Configure the values for the analog input settings. TIP Input Process Variable maximum and minimum settings correspond to 20 mA and 4 mA respectively.
  • Page 54 Chapter 6 Configure I/O 4. Configure the Alarm Unlatched and Alarm On Fault settings as required by pressing the required checkboxes. 5. To set the limit values for the alarms, follow these steps. IMPORTANT You have to check an Alarm Enable box first before setting a limit value. Four limits are available (High High, High, Low, and Low Low) to be used in your specific installation.
  • Page 55 Configure I/O Chapter 6 7. To make your changes to the controller, you can download configuration by using the logic write keyswitch at the front of the panel. IMPORTANT On the I/O configuration display, the I/O channels that you configured or changed appear as yellow.

  • Page 56: Configure Digital Input Characteristics

    Chapter 6 Configure I/O Configure Digital Input Characteristics After the input is created by enabling the channel, entering a description, and naming the tag, you can configure the digital input characteristics. TIP Unconfigured points return a tag name of 'DISABLED' and a description of 'Spare Channel’...
  • Page 57 Configure I/O Chapter 6 To configure the digital input, follow these steps. 1. In Channel Type, press Digital Input. The digital input characteristics appear. 2. Select the type of input sense required; press Normally Closed or Normally Open. 3. To set the switching level, follow these steps. a.
  • Page 58 Chapter 6 Configure I/O 4. Specify if line monitoring is configured for this input. Line Monitoring (Digital Inputs) on page 59 for more information. 5. To open the Alarm configuration tab, press 6. Configure the Alarm Unlatched and Alarm On Fault settings as required by pressing the required checkboxes.
  • Page 59 Configure I/O Chapter 6 Line Monitoring (Digital Inputs) This section provides recommended line monitoring circuits and resistor values. TIP You must make sure that there is no crossover between channels. Figure 36 - Field Loop Circuit for Digital Input +24V DC To Digital Input Module Shield...
  • Page 60 Chapter 6 Configure I/O Figure 38 - Field Loop Circuit for Line Monitored Digital Input for Fire and Gas Systems (F & G) +24V DC To Digital Input Module Shield (if used) Terminal Blocks • The F&G circuit also allows two devices to be in alarm without reporting short circuit.

  • Page 61: Configure Analog Output Characteristics

    Configure I/O Chapter 6 Configure Analog Output Characteristics After the output is created by entering a description, and tag name you can configure the analog output characteristics. Figure 39 - Analog Output Configuration Faceplate Item Description Channel Enabled - This feature controls the channel parameters configuration. Description (maximum length 40 characters) - The description is shown in the Module Type Faceplate to describe the channel.
  • Page 62 Chapter 6 Configure I/O • C&E Output makes the analog output available to the Cause and Effect charts. Configure Low/High Current (0…20 mA) and Output Sense as required. 2. Click to close the configuration faceplate. 3. To make your changes to the controller, you can download configuration by using the turnkey at the front of the panel.

  • Page 63: Configure Digital Output Characteristics

    Configure I/O Chapter 6 Configure Digital Output Characteristics After the output is created by entering a description and tag name, you can configure the digital output characteristics. Figure 40 - Digital Output Configuration Faceplate Item Description Channel Enabled - This feature controls the channel parameters configuration. Description (maximum length 40 characters) - The description is shown in the Module Type faceplate to describe the channel.

  • Page 64: Validate Configuration

    Chapter 6 Configure I/O 4. To make your changes to the controller, you can download configuration by using the turnkey at the front of the panel. IMPORTANT On the I/O configuration display, the I/O channels that you configured or changed appear as yellow. The yellow box indicates that there are differences between what you configured and what the controller is running.
  • Page 65 Chapter Configure Logic The OptiSIS solution offers the ability to configure Cause and Effect logic that is based on a set of signals previously configured. Multiple Cause and Effect charts are available for configuration: • 10 charts for the 50 I/O solution •...

  • Page 66: Using Cause And Effect Charts

    Chapter 7 Configure Logic Using Cause and Effect Charts This section describes the Cause and Effect Chart display and the steps to configure the logic. Figure 41 - Cause and Effect Chart Configuration Item Description Cause and Effect Description (two lines) Logical elements (for example, OR, AND, VOTED, and ENABLE) Input tag name Time delay (only used with TOn and TOff)
  • Page 67 Configure Logic Chapter 7 Table 5 - Logic Functions Logic Function Description ENABLE For ENABLE functions, when the input condition is TRUE, then the remaining logic functions in the Cause and Effect column (OR, NOT OR, AND, NOT AND, TOn, TOff, and 2(ooN)) are enabled.

  • Page 68: Configuration Methods

    Chapter 7 Configure Logic Configuration Methods There are three methods you can use to configure the Cause and Effect charts: • The HMI display • Back up and restore • The Offline Configuration Tool (see Appendix A Configure Cause and Effect Charts on page 108) Configure Cause and Effect Charts by Using the HMI Display Follow these steps to use the HMI display to configure the different types of...
  • Page 69 Configure Logic Chapter 7 8. Press an output field. The I/O Select - Outputs faceplate appears. 9. Select the required output. 10. Press Select Output. The I/O Select - Outputs faceplate disappears. 11. Select the logic function that you want to use from the tools table. 12.
  • Page 70 Chapter 7 Configure Logic 15. Turn the logic write keyswitch. The keyswitch is on the front of the door, below and to the left of the HMI. The download display appears. IMPORTANT The Verify After Download setting enables a verification process that compares the downloaded values with the configured values.

  • Page 71: Back Up And Restore

    Configure Logic Chapter 7 Back up and Restore The OptiSIS solution configuration can be backed up or restored from a USB drive. This function allows the operating system to be backed up for record and management of change (MOC) purposes. This function also aids in disaster recovery or when you revert to a previous version.
  • Page 72 Chapter 7 Configure Logic 3. From the Maintenance display, press until the Configuration Load/Save display appears. Download from USB Drive to Controller. Upload from Controller to USB Drive. Refresh 4. Specify a file name in the Save Filename field. 5. Press Upload from Controller to USB. Figure 42 - Storing Current Configuration to Your USB Drive IMPORTANT The upload process can take up to 2 minutes.
  • Page 73 Configure Logic Chapter 7 Load or Restore a Configuration To download a configuration file to the controller, follow these steps. 1. Log in as Engineer. Application Accounts on page 2. To go to the Maintenance display, press 3. From the Maintenance display, press until the Configuration Load/Save display appears.
  • Page 74 Chapter 7 Configure Logic Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 75: Introduction

    Chapter Communication Introduction The OptiSIS solution provides Ethernet and serial communication to external devices using Modbus RTU or Modbus TCP/IP. Additionally, it supports the integration of field devices via HART protocol. This chapter covers the details of these communication protocols. IP Addresses Table 6 - IP Addresses IP Address...

  • Page 76: Hart Protocol

    Chapter 8 Communication HART Protocol The OptiSIS solution supports HART protocol, which lets you integrate Field Device data into your safety application. Typical uses of this data include the following: • To display, compare, and alarm (externally) the measured process variable from the analog input channel with the process variable value that is transmitted over HART from the field device to detect discrepancies.

  • Page 77: Hart Device Management By Using An Ams

    Communication Chapter 8 HART Device Management by Using an AMS The OptiSIS solution is enabled to allow an FDT (version 1.0) compatible AMS to communicate with smart field devices. The AMS is enabled only on the first of the two customer ports. The AMS requires that the AADvance CommDTM is installed, to allow any DeviceDTM to interface HART data between the AMS and the Field Device.

  • Page 78: Rockwell Automation Publication 1711-Um004B-En-P - September

    Chapter 8 Communication Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 79: Monitor System State

    Chapter Operation Monitor System State The OptiSIS solution provides diagnostics that allow you to monitor the system state. On the Maintenance displays, you can view overall system status, configure inputs and outputs, change passwords, and handle configuration files, if necessary. Navigation to any of these aspects is accomplished by using the navigation arrows at the bottom of the display.
  • Page 80 Chapter 9 Operation Figure 43 - System Status Display Analog Output Group Digital Output Group Processor Group Flexible Input Group Flexible Input Digital Output Group Group Item Description Item Description Input Filter Time (ms) - Time that the inputs must remain in the alarm state Common Facilities, continued before the alarm can be generated (0…500 ms) Duplicate Output Detected - An output has been used in two different...
  • Page 81 Operation Chapter 9 Processor Module Status When in Operation mode, you can press the Processor group, to view the processor status. This view gives you information to identify issues with any of the system processor modules. This information includes the following: •...
  • Page 82 Chapter 9 Operation Flexible Input Module Status When you press a flexible input group, you can view the input module status. The Flexible Input module groups, and the dedicated Analog Input and Digital Input groups available in the 100 I/O solution, share similar displays. This view gives you information to identify issues with any of the system input modules.
  • Page 83 Operation Chapter 9 Digital Output Module Status When you press the digital output group, you can view the digital output module status. This view gives you information to identify issues with any of the system digital output modules. This information includes the following: •...
  • Page 84 Chapter 9 Operation Analog Output Module Status When you press an Analog Output group, you can view the analog output module status. This view gives you information to identify issues with any of the system analog output modules. This information includes the following: •...

  • Page 85: I/O Status

    Operation Chapter 9 I/O Status To view I/O status, follow these steps. 1. To go to the Maintenance display, press 2. From the Maintenance display, press until the I/O Configuration display appears. 3. Press to highlight the appropriate input or output. 4.
  • Page 86 Chapter 9 Operation You can view the device configuration faceplate when you press anywhere on the channel row. Figure 48 - Analog Input Configuration Faceplate Item Description Channel Type - The Flexible Input channel can be wired to either an Analog Input or Digital Input (Figure 49).
  • Page 87 Operation Chapter 9 Figure 49 - Digital Input Configuration Faceplate Item Description Channel Type - The Flexible Input channel can be wired to either an Analog Input (Figure 48) or Digital Input. Required subparameters vary according to the option that you choose here. Switching level (mA) - The level across which the input is deemed to be energized (above this value) or de-energized (below this value).
  • Page 88 Chapter 9 Operation Digital Output Group To access the digital output status, follow steps 1…4 (page 85) to view Digital Output Slots (5 and 6 or 7 and 8) status. You can view the device configuration faceplate when you press anywhere on the channel row.
  • Page 89 Operation Chapter 9 Analog Output Group To access the analog output status, follow steps 1…4 (page 85) to view Analog Output Slots 9 and 10 status. You can view the device configuration faceplate when you press anywhere on the channel row. Figure 51 - Analog Output Configuration Faceplate Item Description...
  • Page 90 Chapter 9 Operation Internal Parameters Follow steps 1…4 (page 85) to view Internal Parameter status. Item Description Sts (Status) - Gray = False; Red = True Modbus Input Status Follow steps 1…4 (page 85) to view Modbus Input status. Item Description Sts (Status) - Gray = False;...

  • Page 91: View Alarms

    Operation Chapter 9 View Alarms The Alarm display subscribes to and displays all alarms from the system. From this display, you can view a list of the active alarms, monitor alarm details, acknowledge one or multiple alarms and reset latched alarms. Figure 52 - Alarm Status 1.
  • Page 92 Chapter 9 Operation The appearance of the alarms in the Alarm display is based on the alarm priority (Table 9). Active and unacknowledged alarms blink until an acknowledge command is issued or the alarm returns to normal. Table 9 - Alarm Priority Alarm Priority Description Text Color...
  • Page 93 Operation Chapter 9 2. Use the Alarm display commands (Figure 54) to acknowledge, refresh, or reset alarms. • To acknowledge the alarm, select the specific alarm and press the appropriate command button to stop the message from flashing. • To reset the alarm, press Figure 54 - Alarm Display Commands Details Pane Item...
  • Page 94 Chapter 9 Operation Table 11 - Alarm Types and Actions Category Description Action Common Facilities Any force present Alarm to HMI. Display on System Status display. AADvance controller system fault AADvance controller I/O fault (for configured I/O) AADvance controller fault (system healthy) AADvance controller V1 / V2 faults AADvance DO group 1 / 2 V faults AADvance CPU temperature high...

  • Page 95: View Warnings

    Operation Chapter 9 View Warnings The Warning display lists active system warnings, such as restricted access level and active overrides/forces. Table 12 - Warning Severity Warning Level Description Color No Warning Level 1: Preventing Operation Level 2 Function Disabled/Bypassed Figure 55 - Warning Status Reset after Trip If the logic, as configured, detects a trip condition (for example, pressure transmitter high level exceeded), the OptiSIS solution performs the configured...

  • Page 96: Reset By Using Supplied Modbus Point

    Chapter 9 Operation Reset by Using Supplied Modbus Point To reset the OptiSIS solution remotely, pulse Modbus Coil 1 (address 00001) to 1. A pulse time of 1…2 seconds is typically sufficient. Pulsing Modbus Coil 1 has the same effect as pressing Reset ( ) on the OptiSIS Alarms display.

  • Page 97: Introduction

    Chapter Maintenance Introduction The maintenance person must be experienced in working on electronic equipment and in particular safety-related systems. They must have knowledge and experience of local operating and safety standards. Failure to follow these recommendations can result in situations that can lead to system damage and even personal injury.

  • Page 98: Repair Procedures

    Chapter 10 Maintenance Repair Procedures You can replace physical components. See the AADvance Maintenance and Troubleshooting Manual, publication ICSTT-RM406. Electrostatic Precautions The electronic components of these systems are susceptible to electrostatic discharge (ESD). Be sure to take the following precautions: •...
  • Page 99 Maintenance Chapter 10 To replace a faulty battery, do the following: 1. To remove the battery cover, use a small Phillips screwdriver to loosen the cover screw. Battery Cover Screw 2. Remove the battery by pulling on the blue ribbon. Blue Ribbon 3.

  • Page 100: Reset Optisis Solution Default Settings

    Chapter 10 Maintenance Reset OptiSIS Solution To clear all configured Cause and Effect information and (if necessary) configured I/O information, follow these steps. Default Settings 1. On the Home display, log in as Engineer (in the FactoryTalk® application). 2. Press Configuration 3.

  • Page 101: Preparing Your Optisis Solution For Upgrades

    Maintenance Chapter 10 4. Press to adjust the Date or Time accordingly. The Date and Time Settings window appears. a. To adjust the time, press the arrows. b. To change the date, press the calendar or use the arrows to change the month.
  • Page 102 Chapter 10 Maintenance To open the content of your USB drive, follow these steps. 1. Close your OptiSIS solution application and restart your HMI by going to the Start Menu or by using the power switch. 2. Plug your USB drive into any of the ports that are provided in the HMI. Figure 6 on page 21 for USB port locations.

  • Page 103: Begin Configuration

    Appendix Offline Configuration Tool IMPORTANT The offline configuration tool is recommended to run with a screen resolution of 1920 x 1080. The OptiSIS offline configuration tool is available as a free download and is intended to be used to do the following: •...

  • Page 104: General Configuration

    Appendix A Offline Configuration Tool 2. Click New. 3. Click the System Type pull-down menu and select your system. General Configuration Enter the required values to set your Input Delay Time (0…500 ms) and MTTR (0…168 hr). Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 105: Configure Inputs

    Offline Configuration Tool Appendix A Configure Inputs Follow these steps to configure the fundamental characteristics for an input. IMPORTANT For a description of configuration parameters, see Table 4 on page 1. Under I/O Configuration, select an input and click Configure I/O. 2.
  • Page 106 Appendix A Offline Configuration Tool 5. Select Digital Input or Analog Input. • Digital Input: Configure your Switching Level and select if your Input Sense is normally closed or normally open. • Analog Input: Configure your maximum and minimum process variable (PV) and enter the units.

  • Page 107: Configure Outputs

    Offline Configuration Tool Appendix A Configure Outputs Follow these steps to configure the fundamental characteristics for an output. IMPORTANT For a description of configuration parameters, see Table 4 on page 1. Under I/O Configuration, select an output and click Configure I/O. 2.

  • Page 108: Configure Cause And Effect Charts

    Appendix A Offline Configuration Tool 5. Configure your output settings and click Save. 6. Repeat steps 2…5 for all applicable output channels. 7. After you have configured all applicable output channels, click Close. Configure Cause and Effect Cause and Effect charts allow the system to act on inputs to control outputs. Follow these steps to configure the chart.
  • Page 109 Offline Configuration Tool Appendix A 2. Select a row and choose an input from the list. 3. Click Select Input. IMPORTANT For an explanation of the Tools (Logic Functions), see Table 5 on page 4. Select a column and choose an output from the list. 5.
  • Page 110 Appendix A Offline Configuration Tool 7. To place the logic expression, click in the intersecting box for the input and output. IMPORTANT An input and output must be selected before you can add the logic function. Logic Functions Logic Function 8.

  • Page 111: Save Configuration File

    Offline Configuration Tool Appendix A Save Configuration File When you have completed your configuration, you must save it or the changes are lost. 1. Click Save. 2. Type in a name for the file and click Save. 3. When the save is complete, click OK. AB PLCs Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 112: Edit A Configuration File

    Appendix A Offline Configuration Tool Edit a Configuration File 1. Open the Offline Configuration Tool. 2. Click Load. 3. Select your configuration file (.csv) and click Open. 4. When the file has loaded, click OK. Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 113: Load Or Restore Configuration File

    Offline Configuration Tool Appendix A 5. Verify that your file has loaded by checking the Configuration File text box. 6. Reconfigure as necessary and save. Load or Restore Load or Restore a Configuration on page Configuration File AB PLCs Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...
  • Page 114 Appendix A Offline Configuration Tool Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 115: Sil Capability

    Appendix Specifications SIL Capability All OptiSIS solutions are capable of SIL 3. Hardware Architecture Table 13 - 50 I/O Solution Hardware Architecture Attribute 1711- 1711- 1711- 1711- P05SISID050S P05SISID050T P05SISOD050S P05SISOD050T Processors 1oo2D fault tolerant 2oo3 fault tolerant 1oo2D fault tolerant 2oo3 fault tolerant 1oo1 fail-safe 1oo2D fault tolerant 1oo1 fail-safe 1oo2D fault tolerant...

  • Page 116: I/O Characteristics

    Appendix B Specifications I/O Characteristics Table 17 - 50 and 100 I/O Solution I/O Characteristics Attribute 1711- 1711- 1711- 1711- P05SISID050S/T P05SISOD050S/T P05SISID100S/T P05SISOD100S/T Flexible Inputs (AI/DI) • Analog input – 4…20 mA nominal (0…24 mA actual) – SIS or field powered –...

  • Page 117: Environmental

    Specifications Appendix B Environmental Table 20 - 50 and 100 I/O Solution Environmental Attribute 1711- 1711- 1711- 1711- P05SISID050S/T P05SISOD050S/T P05SISID100S/T P05SISOD100S/T Temperature, Outdoor models: 0…+45 °C (32…113 °F) operating Indoor models: 0…25 °C (32…77 °F) Temperature, storage Outdoor models: -20…+70 °C (-4…+158 °F) Indoor models: -20…+55 °C (-4…+131 °F) Relative humidity 10…90% noncondensing...
  • Page 118 Appendix B Specifications Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 119: Recommended Spare Parts

    Appendix Spare Parts List Recommended Spare Parts The following items are the recommended spare parts for the OptiSIS solution. Table 24 - Spare Parts List Part Number Description T9110 Processor module T9432 Analog input module, 16 channel T9451 Digital output module, 24V DC, 8 channel T9482 Analog output module, 8 channel T9901...
  • Page 120 Appendix C Spare Parts List Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 121: Safety Checklist

    Appendix Safety Checklist This section contains the specific checklist items that confirm that the OptiSIS solution is being applied safely and within its design limits for use in Safety Functions up to and including SIL 3. Checklist • Are the installation environment parameters (temperature, humidity, and area classification) within the design specification for OptiSIS solution? –...
  • Page 122 Appendix D Safety Checklist Notes: Rockwell Automation Publication 1711-UM004B-EN-P - September 2016...

  • Page 123: Modbus Rtu Settings

    Appendix Modbus Communication Address Modbus RTU Settings These settings are fixed and not changeable by the end user. Table 25 - Modbus RTU Setting Value Communication Rate 19,200 Data Bits Parity None Stop Bits Mode RS485hdmux (half-duplex, 2-wire connection) Slave address Table 26 - Modbus TCP/IP Setting Value...
  • Page 124 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Coil Modbus_Input[12] Modbus Input 12 Status Active Coil Modbus_Input[13] Modbus Input 13 Status Active Coil Modbus_Input[14] Modbus Input 14 Status Active Coil...
  • Page 125 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 10025 DO4_01.DOP Digital Output 25 Status Energized 100 only Discrete Input 10026 DO4_02.DOP Digital Output 26 Status Energized 100 only Discrete Input...
  • Page 126 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1016 11016 AI1_01_DATA.Alm_LineFault Analog Input 1 Line Fault Line Fault Discrete Input 1017 11017 AI1_01_DATA.OCmd_SubstPV Analog Input 1 Forced Forced...
  • Page 127 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1083 11083 AI1_08_DATA.Alm_Lo Analog Input 8 Alarm Low Alarm Active Discrete Input 1084 11084 AI1_08_DATA.Alm_LoLo Analog Input 8 Alarm Low Low Alarm Active...
  • Page 128 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1148 11148 AI1_14_DATA.OCmd_Suppress Analog Input 14 Suppressed Suppressed Discrete Input 1151 11151 AI1_15_DATA.Alm_HiHi Analog Input 15 Alarm High High Alarm Active Discrete Input 1152...
  • Page 129 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1215 11215 AI2_05_DATA.Alm_Digital Analog Input 21 Digital Alarm Alarm Active Discrete Input 1216 11216 AI2_05_DATA.Alm_LineFault Analog Input 21 Alarm Line Fault Line Fault...
  • Page 130 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1282 11282 AI2_12_DATA.Alm_Hi Analog Input 28 Alarm High Alarm Active Discrete Input 1283 11283 AI2_12_DATA.Alm_Lo Analog Input 28 Alarm Low Alarm Active...
  • Page 131 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1347 11347 AI3_02_DATA.OCmd_SubstPV Analog Input 34 Forced Forced 100 only Discrete Input 1348 11348 AI3_02_DATA.OCmd_Suppress Analog Input 34 Suppressed Suppressed...
  • Page 132 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1414 11414 AI3_09_DATA.Alm_LoLo Analog Input 41 Alarm Low Low Alarm Active 100 only Discrete Input 1415 11415 AI3_09_DATA.Alm_Digital...
  • Page 133 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1481 11481 AI3_16_DATA.Alm_HiHi Analog Input 48 Alarm High High Alarm Active 100 only Discrete Input 1482 11482 AI3_16_DATA.Alm_Hi...
  • Page 134 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1546 11546 AI4_06_DATA.Alm_LineFault Analog Input 54 Alarm Line Fault Line Fault 100 only Discrete Input 1547 11547 AI4_06_DATA.OCmd_SubstPV...
  • Page 135 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 1613 11613 AI4_13_DATA.Alm_Lo Analog Input 61 Alarm Low Alarm Active 100 only Discrete Input 1614 11614 AI4_13_DATA.Alm_LoLo...
  • Page 136 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Output Demanded Discrete Input 2051 12051 DO1_05_DATA.Sts_LogicDemand Digital Output 5 Demand from Cause and Effect Discrete Input 2052 12052 DO1_05_DATA.Alm_LineFault...
  • Page 137 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Discrete Input 2143 12143 DO2_06_DATA.OCmd_SubstPV Digital Output 14 Forced Forced Discrete Input 2144 12144 DO2_06_DATA.OCmd_Suppress Digital Output 14 Suppressed Suppressed Output Demanded Discrete Input...
  • Page 138 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Output Demanded Discrete Input 2241 12241 DO3_08_DATA.Sts_LogicDemand Digital Output 24 Demand from Cause and 100 only Effect Discrete Input 2242...
  • Page 139 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access CPU 24V Input 2 Discrete Input 3003 13003 Alarm_Power_Processor_V2 CPU 24V Input 2 Failed Failed Bypass or Force Discrete Input 3004 13004...
  • Page 140 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 30041 AI2_05.PV Analog Input 21 Analog Process Variable Input Registers 30043 AI2_06.PV Analog Input 22 Analog Process Variable Input Registers 30045 AI2_07.PV...
  • Page 141 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 1 HART Information - Input Registers 3013 33013 AI1_HART_01.V1 Primary Variable Analog Input 1 HART Information - Input Registers 3015 33015...
  • Page 142 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 7 HART Information - Input Registers 3079 33079 AI1_HART_07.V4 Quaternary Variable Input Registers 3081 33081 AI1_HART_08.I Analog Input 8 HART Information - Current...
  • Page 143 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 14 HART Information - Input Registers 3145 33145 AI1_HART_14.V2 Secondary Variable Analog Input 14 HART Information - Input Registers 3147 33147...
  • Page 144 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 3211 33211 AI2_HART_05.I Analog Input 21 HART Information - Current Analog Input 21 HART Information - Input Registers 3213 33213...
  • Page 145 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 27 HART Information - Input Registers 3277 33277 AI2_HART_11.V3 Tertiary Variable Analog Input 27 HART Information - Input Registers 3279 33279...
  • Page 146 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 34 HART Information - Input Registers 3343 33343 AI3_HART_02.V1 100 only Primary Variable Analog Input 34 HART Information - Input Registers 3345 33345...
  • Page 147 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 40 HART Information - Input Registers 3409 33409 AI3_HART_08.V4 100 only Quaternary Variable Input Registers 3411 33411 AI3_HART_09.I...
  • Page 148 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 47 HART Information - Input Registers 3475 33475 AI3_HART_15.V2 100 only Secondary Variable Analog Input 47 HART Information - Input Registers 3477 33477...
  • Page 149 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 3541 33541 AI4_HART_06.I Analog Input 54 HART Information - Current 100 only Analog Input 54 HART Information - Input Registers 3543 33543...
  • Page 150 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Input 60 HART Information - Input Registers 3607 33607 AI4_HART_12.V3 100 only Tertiary Variable Analog Input 60 HART Information - Input Registers 3609 33609...
  • Page 151 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Analog Output 3 HART Information - Input Registers 4033 34033 AO1_HART_03.V1 Primary Variable Analog Output 3 HART Information - Input Registers 4035 34035...
  • Page 152 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 5025 35025 AI1_02_DATA.Cfg_LoLim Analog Input 2 Low Alarm Limit Input Registers 5027 35027 AI1_02_DATA.Cfg_LoLoLim Analog Input 2 Low Low Alarm Limit Input Registers 5031...
  • Page 153 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 5157 35157 AI1_15_DATA.Cfg_LoLoLim Analog Input 15 Low Low Alarm Limit Input Registers 5161 35161 AI1_16_DATA.Cfg_HiHiLim Analog Input 16 High High Alarm Limit Input Registers...
  • Page 154 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 5291 35291 AI2_13_DATA.Cfg_HiHiLim Analog Input 29 High High Alarm Limit Input Registers 5293 35293 AI2_13_DATA.Cfg_HiLim Analog Input 29 High Alarm Limit Input Registers...
  • Page 155 Modbus Communication Address Appendix E Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 5423 35423 AI3_10_DATA.Cfg_HiLim Analog Input 42 High Alarm Limit 100 only Input Registers 5425 35425 AI3_10_DATA.Cfg_LoLim Analog Input 42 Low Alarm Limit...
  • Page 156 Appendix E Modbus Communication Address Table 27 - Modbus Map ModbusBase Coil/Register Value 1 Modbus Type Address Number Tag Name Description Description System Access Input Registers 5555 35555 AI4_07_DATA.Cfg_LoLim Analog Input 55 Low Alarm Limit 100 only Input Registers 5557 35557 AI4_07_DATA.Cfg_LoLoLim Analog Input 55 Low Low Alarm Limit...

  • Page 157: Index

    Index CommDTM definition 9 abbreviations 9 common facilities 80 AC SAFETY GROUND 26 communication 75 additional resources 11 components 19 AI repeat 61 location 20 alarm USB port 21 configuration 53 conduit display 35 bottom entry 27 icon 91 configuration priority 92 back up 71 state 92...
  • Page 158 Index display alarm 35 configure cause and effect charts 68 help 35 reset trip 95 maintenance 35 user roles and passwords 16 operator 35 HMI navigation 35 warning 35 door swing radius 22 I/O channel definition 9 status description 48 I/O characteristics 116 I/O configuration 49 edit configuration file...
  • Page 159 Index maintenance 38 passwords maintenance display 35 change 44 default 16 analog output module status 84 enter 43 digital output module status 83 windows 16 flexible input module status 82 performance 117 processor module status 81 maintenance symbols peripherals 41 Help screen 41 power layout 28 management of change 47...
  • Page 160 Index spare parts 119 specifications 115 unpack 21 approximate dimension 117 update the password 44 communication 117 upgrade 101 environmental 117 USB drive 71 hardware architecture 115 I/O characteristics 116 user logout 17 I/O configuration 115 user name performance 117 enter 42 SIL capability 115 system power 116...
  • Page 161 AB PLCs...
  • Page 162 Rockwell Automation maintains current product environmental information on its website at http://www.rockwellautomation.com/rockwellautomation/about-us/sustainability-ethics/product-environmental-compliance.page. AADvance, Allen-Bradley, FactoryTalk, LISTEN. THINK. SOLVE., OptiSIS, Rockwell Automation, and Rockwell Software are trademarks of Rockwell Automation, Inc. Trademarks not belonging to Rockwell Automation are property of their respective companies.

This manual is also suitable for:

Optisis 1711-p05sisid100sOptisis 1711-p05sisid100tOptisis 1711-p05sisod050sOptisis 1711-p05sisid050tOptisis 1711-p05sisod100tOptisis 1711-p05sisod100s ... Show all

Table of Contents