Related Manuals for Rockwell Automation Allen-Bradley POINT I/O DeviceLogix
Summary of Contents for Rockwell Automation Allen-Bradley POINT I/O DeviceLogix
- Page 1 POINT I/O and ArmorPOINT I/O DeviceLogix Modules User Manual (Catalog Numbers 1734-8CFGDLX, 1738-8CFGDLXM8, 1738-8CFGDLXM12, 1738-8CFGDLXM23) Allen-Bradley HMIs...
- Page 2 In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment.
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Page 3: Table Of Contents
Table of Contents Purpose of This Manual........5 Preface Who Should Use This Manual. - Page 4 Table of Contents Chapter 4 About This Chapter ........33 DeviceLogix for POINT I/O and Offline Configuration using RSNetworx for DeviceNet .
- Page 5 Table of Contents Chapter 8 About This Chapter ........83 Troubleshooting About Module Diagnostics .
- Page 6 Table of Contents Notes: Publication 1734-UM015A-EN-E - November 2009...
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Page 7: Purpose Of This Manual
Preface This manual describes how to install, configure, and troubleshoot your Purpose of This Manual POINT I/O DeviceLogix and ArmorPOINT I/O DeviceLogix modules. POINT I/O and ArmorPOINT I/O modules can be used in EtherNet/IP, DeviceNet, and ControlNet systems. As such, you may need to refer to other publications in addition to this one. -
Page 8: Who Should Use This Manual
Preface This manual is intended for qualified personnel. You should know how to do Who Should Use This the following: Manual • Use RSNetWorx software or similar configuration software to set up and calibrate these modules. • Download and use electronic data sheet (EDS) files. In addition, you should be familiar with RSLogix 5000 and CIP Network terminology. - Page 9 Preface Resource Description POINT I/O Voltage Terminal Module Installation Instructions, Provides installation information about 1734-VTM modules. publication 1734-IN024 POINT I/O Wiring Base Assembly Installation Instructions, Provides installation information about 1734-TB and 1734-TBS publication 1734-IN511 assemblies. POINT I/O Wiring Base Assembly Installation Instructions, Provides installation information about 1734-TB3 and 1734-TB3S publication 1734-IN013...
- Page 10 Preface Notes: Publication 1734-UM015A-EN-E - November 2009...
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Page 11: Chapter 1 About This Chapter
Chapter Introduction This chapter introduces POINT I/O and ArmorPOINT I/O configurable About This Chapter modules with DeviceLogix capability. • About the Modules • Quick Start - Prepare the Modules to work on DeviceNet • Quick Start - Prepare the Modules to work on EtherNet/IP and ControlNet The POINT I/O and ArmorPOINT I/O modules work with EtherNet/IP, About the Modules... -
Page 12: 1734-8Cfgdlx
Introduction 1734-8CFGDLX This module is an 8-point 24V DC I/O module with 8 self-configuring points and DeviceLogix capabilities. Each of the I/O points can be either a DC input or output. The module supports removal and insertion under power, auto-address, and auto-baud in compliance with the POINTBus backplane. 1738-8CFGDLXM8, 1738-8CFGDLXM12, and 1738-8CFGDLXM23 The ArmorPOINT I/O family consists of modular I/O modules. -
Page 13: Stand Alone Devicelogix
Introduction Stand Alone DeviceLogix If DeviceLogix is enabled (programmed), then the module becomes the owner of its outputs. The DeviceLogix program reads inputs and controls the onboard outputs. • The produced assembly may be shared with a controller if a connection exists. -
Page 14: Quick Start - Prepare The Modules To Work On Devicenet
Introduction Quick Start - Prepare the Modules to work on Mount the Module DeviceNet For POINT I/O, see Chapter For ArmorPOINT I/O, see Chapter Wire the Module For POINT I/O, see Chapter For ArmorPOINT I/O, see Chapter Configure DeviceNet Network and Scanner Chapter Configure the Module using... -
Page 15: Controlnet
Introduction Quick Start - Prepare the Modules to work on Mount the Module EtherNet/IP and ControlNet For POINT I/O, see Chapter For ArmorPOINT I/O, see Chapter Wire the Module For POINT I/O, see Chapter For ArmorPOINT I/O, see Chapter Add Module to RSLogix 5000 Chapter Write the DeviceLogix Program in RSNetworx for DeviceNet... - Page 16 Introduction Notes: Publication 1734-UM015A-EN-E - November 2009...
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Page 17: Chapter 2 About This Chapter
Chapter Install POINT I/O DeviceLogix Modules If you are using ArmorPOINT I/O modules (1738-8CFGDLXM8/M12/M23), go to Chapter 3, Install ArmorPOINT I/O DeviceLogix Modules. Read this chapter for installation and wiring information including how to About This Chapter complete the following: •... - Page 18 Install POINT I/O DeviceLogix Modules POINT I/O is grounded through the DIN rail to chassis ground. ATTENTION Use zinc-plated, yellow-chromated steel DIN rail to assure proper grounding. The use of DIN rail materials (for example, aluminum or plastic) that can corrode, oxidize, or are poor conductors, can result in improper or intermittent grounding.
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Page 19: Install The Mounting Base Assembly
Install POINT I/O DeviceLogix Modules The 1734-8CFGDLX is compatible with 1734-TB, 1734-TBS, 1734-TOP, and Install the Mounting Base 1734-TOPS wiring bases. Assembly The 1734-TB or 1734-TBS wiring base assembly consists of a 1734-MB mounting base and a 1734-RTB or 1734-RTBS removable terminal block (RTB). - Page 20 Install POINT I/O DeviceLogix Modules To install the mounting base assembly on the DIN rail, proceed as follows. 1. If you are using the 1734-TB or 1734-TBS mounting base, attach the RTB to the mounting base. Otherwise, skip to step 2. Removable Terminal Block (RTB)
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Page 21: Install An I/O Module
Install POINT I/O DeviceLogix Modules Install the module before or after base installation. Make sure that the Install an I/O Module mounting base is correctly keyed before installing the module into the mounting base. In addition, make sure the mounting base locking screw is positioned horizontally referenced to the base. - Page 22 Install POINT I/O DeviceLogix Modules 3. Insert the module straight down into the mounting base and press to secure. 44967 4. Secure the module with the RTB removal handle (for 1734-TB or 1734-TBS bases) or handle (for 1734-TOP or 1734-TOPS bases). Module Handle 44859...
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Page 23: Install The Removable Terminal Block
Install POINT I/O DeviceLogix Modules A removable terminal block (RTB) is supplied with your mounting base Install the Removable assembly. Terminal Block To remove, pull up on the RTB handle. This lets you remove and replace the base when necessary without removing any of the wiring. To re-insert the RTB, proceed as follows. -
Page 24: Remove A 1734-Tb Or 1734-Tbs Base
Install POINT I/O DeviceLogix Modules To remove a 1734-TB or 1734-TBS mounting base, do the following. Remove a 1734-TB or 1734-TBS Base When you insert or remove the module while backplane power WARNING is on, an electrical arc can occur. This could cause an explosion in hazardous location installations. -
Page 25: Remove A 1734-Top Or 1734-Tops Base
Install POINT I/O DeviceLogix Modules To remove a wiring base from the DIN rail, you must remove the module Remove a 1734-TOP or installed to the right of the base. 1734-TOPS Base If you connect or disconnect wiring while the field-side power WARNING is on, an electrical arc can occur. -
Page 26: Wire The Modules
Install POINT I/O DeviceLogix Modules This section provides wiring instructions for the modules. Wire the Modules 1734-8CFGDLX I/O Module Module Status Module Status Network Status Network Status NODE: Device DeviceLogix Status Logix Status Status of I/O 0 Status of I/O 4 Status of I/O 1 Status of I/O 5 Status of I/O 2... -
Page 27: System And Power Considerations
Install POINT I/O DeviceLogix Modules Channel Terminal Number Common Voltage External External 10/28.8 V DC is supplied through the internal power bus. Common connections require an external connection, such as a 1734-CTM module. Supply Voltage Connections require an external connection such as a 1734-VTM module. System and Power Considerations There are no power terminals on the POINT I/O DeviceLogix module. - Page 28 Install POINT I/O DeviceLogix Modules Example of Logical Partitioning EP24DC Adapter Status DeviceNet Status PointBus Status 1734-ADN 1734-EP24DC Status System Power Power DeviceNet DeviceNet Power Power 12V DC supply 24V DC supply 1734adn4 Similarly, field power and common (return) can be terminated in the POINT I/O system by using the following modules: •...
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Page 29: Chapter 3 About This Chapter
Chapter Install ArmorPOINT I/O DeviceLogix Modules If you are using POINT I/O modules (1734-8CFGDLX), go to Chapter 2, Install POINT I/O DeviceLogix Modules. Read this chapter for information about how to install ArmorPOINT I/O About This Chapter modules to include the following: •... - Page 30 Install ArmorPOINT I/O DeviceLogix Modules Mounting illustration for the ArmorPOINT adapter with I/O bases Adapter 50 mm 47.2 mm 22 mm 50 mm 50 mm 22 mm Adapter 2.0 in 1.9 in 0.87 in 2.0 in 2.0 in 0.87 in 47.2 mm 50 mm 22 mm...
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Page 31: Install The Module
Install ArmorPOINT I/O DeviceLogix Modules Follow the instructions to install the module. Install the Module 1. Using a bladed screwdriver, rotate the keyswitch on the mounting base clockwise until the number 1 aligns with the notch in the base. Keyswitch Set to position 1, for the 1738 24V DC modules 43675... -
Page 32: Remove The Module From The Mounting Base
Install ArmorPOINT I/O DeviceLogix Modules Remove the Module from the Mounting Base Follow the instructions to remove the module from the mounting base. 1. Put a flat blade screwdriver into the slot of the orange latching mechanism. 2. Push the screwdriver toward the I/O module to disengage the latch. The module lifts up off the base. -
Page 33: 1738-8Cfgdlxm12 I/O Module
Install ArmorPOINT I/O DeviceLogix Modules 1738-8CFGDLXM8 Wiring Diagram (view into connector) Pin 1 - 24V DC Pin 3 - Common Pin 4 - I/O 0 (M8-A) I/O 1 (M8-B) I/O 2 (M8-C) I/O 3 (M8-D) 43583 I/O 4 (M8-E) I/O 5 (M8-F) I/O 6 (M8-G) I/O 7 (M8-H) 1738-8CFGDLXM12 I/O Module... -
Page 34: 1738-8Cfgdlxm23 I/O Module
Install ArmorPOINT I/O DeviceLogix Modules 1738-8CFGDLXM23 I/O Module M23 connector LED indicators 44353 1738-8CFGDLXM23 Wiring Diagram (view into connector) Pin 1 - I/O 0 Pin 2 - I/O 1 Pin 3 - I/O 2 Pin 4 - I/O 3 Pin 5 - I/O 4 43681 Pin 6 - I/O 5 Pin 7 - I/O 6... -
Page 35: Chapter 4 About This Chapter
Chapter DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet This chapter provides information on the following: About This Chapter • Offline Configuration using RSNetworx for DeviceNet • Online Configuration using RSNetWorx for DeviceNet • I/O Data Assembly Maps This section is not a substitute for RSNetworx or DeviceNet scanner and Offline Configuration using adapter publications. -
Page 36: Example: Build The Backplane
DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet Example: Build the Backplane This example shows you how to build the backplane. The following screen shows the 1734-ADN Point I/O Scanner added. Next, locate the I/O modules. In this example, the following modules will be added: •... - Page 37 DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet The digital modules can be found under the category, “General Purpose Discrete I/O”, and the analog modules can be found under the “Rockwell Automation miscellaneous” category. The configuration of each module can now be edited from the Properties dialog box of each module.
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Page 38: Online Configuration Using Rsnetworx For Devicenet
DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet To set up a DeviceNet network using RSNetWorx for DeviceNet when Online Configuration using connected to the network, do the following: RSNetWorx for DeviceNet 1. If you have a DNT file that has been configured, open the file in RSNetWorx for DeviceNet. - Page 39 DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet To update all the modules in the most efficient way, click Network > Download to Network on the menu bar. 5. Review the Message window for any errors. The stored configuration (DNT file) and the configuration of all the modules now match.
- Page 40 DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet Familiarize yourself with all the tabs in the Properties window before proceeding to Chapter 6 where you will learn how to configure the DeviceLogix module. Publication 1734-UM015A-EN-E - November 2009...
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Page 41: I/O Data Assembly Maps
DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet Read this section for information about how to communicate with your I/O Data Assembly Maps module. I/O messages are sent to (consumed) and received from (produced) the I/O modules. These messages are mapped into the processor’s or scanner’s memory. - Page 42 DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet You can select other produced assemblies: • Produced assembly instance 4 is the first byte of produced assembly instance 101 (Data [0]). • Produced assembly instance 111 is the first eight bytes of produced assembly instance 101 (Data [0]…[7]).
- Page 43 DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet Data Map - Configuration Assembly Instance 123 Message Size: 48 Bytes Data [0] Group Off2On Input filter Data [1] Data [2] Group On2Off Input filter Data [3] Data [4] FltM 7 FltM 6 FltM 5 FltM 4...
- Page 44 DeviceLogix for POINT I/O and ArmorPOINT I/O on DeviceNet Data Map - Configuration Assembly Instance 123 (Continued) Message Size: 48 Bytes Data [34] Peer 4 - EPS (ms) Data [35] Data [36] Peer 5 - Slot/MacID Data [37] Peer 5 - Consume Message Length (bytes) Data [38] Peer 5 - EPR (ms) Data [39] Data [40] Peer 6 - Slot/MacID...
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Page 45: Chapter 5 About This Chapter
Chapter DeviceLogix for POINT I/O and ArmorPOINT I/O on Ethernet/ControlNet In this chapter, you will learn how to perform the following tasks: About This Chapter • Create a POINT I/O DeviceLogix module in RSLogix 5000 when using EtherNet/IP or ControlNet adapters •... - Page 46 DeviceLogix for POINT I/O and ArmorPOINT I/O on Ethernet/ControlNet 3. Under Digital, double-click the Point I/O DeviceLogix module. If you cannot find the module in the Select Module dialog box, IMPORTANT you will need to install the Add-On Profile (AOP) for the module. You can download the AOP from http://www.rockwellautomation.com/support/downloads.html.
- Page 47 DeviceLogix for POINT I/O and ArmorPOINT I/O on Ethernet/ControlNet 4. Enter the slot number in the Slot box. It is not possible to make a Rack connection to the Point I/O DeviceLogix module. The connection must be a direct one. On the Connection tab, you can change the Requested Packet Interval (RPI), the default is 20 ms.
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Page 48: I/O Tags
DeviceLogix for POINT I/O and ArmorPOINT I/O on Ethernet/ControlNet I/O Tags The following table lists the input tags and their descriptions. Input tags and their descriptions Description Data This will contain the state of eight I/O points. See Chapter 6 details. -
Page 49: Launch Rsnetworx For Devicenet To Configure The Module
DeviceLogix for POINT I/O and ArmorPOINT I/O on Ethernet/ControlNet The Point I/O DeviceLogix module can only be configured using RSNetWorx Launch RSNetworx for for DeviceNet. DeviceNet to Configure the Module The following example assumes that the module is configured while it is online. -
Page 50: Chapter 6
DeviceLogix for POINT I/O and ArmorPOINT I/O on Ethernet/ControlNet 5. Select Pointbus Port, DeviceNet and click OK. RSNetWorx automatically browses the network to discover all the participating modules. Note the online path in the Messages window at the bottom IMPORTANT half of the screen. -
Page 51: Chapter 6 About This Chapter
Chapter Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet In this chapter, you will learn how to do the following: About This Chapter • Configure the module using the Configuration tab • Use the data on the Parameters tab •... - Page 52 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Parameters on the Configuration tab Parameter Description Off-to-On Delay This is the OFF to ON filter constant for all inputs on the module. A high signal must be present for this amount of time before the module will report an ON.
- Page 53 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Parameters on the Configuration tab (Continued) Parameter Description DLX Dependent This parameter allows the logic in the module to be enabled or Mode disabled according to the I/O connection status or the state of the owning processor.
- Page 54 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Parameters on the Configuration tab (Continued) Parameter Description Peer #xx MacID There are eight (0…7) peer Mac ID parameters. Each one defines the MacID or Slot Number of the peer from which this module will consume data.
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Page 55: Parameters On The Parameters Tab
Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Parameters on the Parameters tab Parameters on the Parameters tab Parameter Description Data - This parameter is the same as the first byte of the Produced I/O Input/Output assembly. -
Page 56: Configure Peer Communication
Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Parameters on the Parameters tab (Continued) Parameter Description Zone Control This is a legacy parameter for DeviceLogix and ZIP. It shows the state of Zone Control, whether it is enabled or disabled. Sequential Auto This parameter should only be used in a DeviceNet system. -
Page 57: Set Up Peer Communication Parameters
Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet • Consume data from a safety connection The module can consume data from a safety module with a standard connection. • Consume data sent to a peer from a master. Set Up Peer Communication Parameters For each peer, you need to configure a set of parameters. - Page 58 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Select bit0 of byte0. With up to 24 bytes of data available for mapping, the last entry is "Peer#0 (Byte 23, Bit7)." 192 bits per peer can be used for a total of 1536 data bits.
- Page 59 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet The 1734-IE4C has an input message that looks like this: Default Data Map for the 1734-IE4C Analog Input Module Message size: 12 bytes Byte 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 Produces Input Channel 0 High Byte Input Channel 0 Low Byte...
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Page 60: Produce Data Without Using A Master
Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet If the POINT I/O DeviceLogix module is consuming data from a peer that has double precision analog data (32-bit), like the 1734-VHSC24, the data can be used in logic by addressing the high-word and low-word separately. By using math functions (multiply and add), the two words can be combined into one value. - Page 61 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet Due to the fact that there is no master to verify the connection and the configuration of each module, it is recommended that the ZIP Security Key be produced in the data.
- Page 62 Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet In this example, the ZIP Security Key is mapped to Network Output Word 3. Any module receiving this data should verify the constant value. For example: The ZIP Security Key constant is added using the ellipses button of the NEQ function block.
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Page 63: Start The Function Block Editor
Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet To start the Function Block editor, do the following. Start the Function Block Editor 1. Go to the property dialog box of the module. 2. Click the DeviceLogix tab, followed by Start Logic Editor. On this tab, you can enter the Author’s name, revision, and description of the logic program. -
Page 64: Chapter 7
Configuring POINT I/O and ArmorPOINT I/O DeviceLogix modules using RSNetworx for DeviceNet If a program is saved in the DNT file, it will be displayed. To learn how to use this editor, refer to Chapter 2 of the DeviceLogix System User Manual, publication RA-UM003. -
Page 65: Chapter 7 About This Chapter
Chapter DeviceLogix Capabilities This chapter lists the DeviceLogix capabilities supported by the POINT I/O About This Chapter DeviceLogix and ArmorPOINT I/O DeviceLogix modules. The module can support up to 144 function blocks. These function blocks are Function Block Instructions categorized in the following manner: •... -
Page 66: Filter Category
DeviceLogix Capabilities Timing Diagnosis The DeviceLogix Timing Diagnosis function block object determines whether the occurrence of the expected event is within the preset timing interval. For more information on the Alarm and Timing Diagnosis function blocks, refer to the DeviceLogix System User Manual, publication RA-UM003. Filter Category The Filter category includes a single instruction type: Low Pass Filter. -
Page 67: Statistical Category
DeviceLogix Capabilities High/Low Limit The DeviceLogix High/Low Limit function block limits the input value within the specified data range. The High/Low Limit function block is outlined in detail as follows. IF value of Input > HighLimit Output = HighLimit ELSE IF value of Input < LowLimit Output = LowLimit ELSE Output = Input... -
Page 68: Comparison Category
DeviceLogix Capabilities For more information on the Timer/Counter category, refer to the DeviceLogix System User Manual, publication RA-UM003. Comparison Category The Comparison category includes basic comparison functions, including these instruction types: • Greater Than (GRT) • Greater Than or Equal To (GEQ) •... -
Page 69: Compute Category
DeviceLogix Capabilities Output is Clear For more information on the Comparison category, refer to the DeviceLogix System User Manual, publication RA-UM003. Compute Category The Compute category includes fundamental arithmetic operations, including the instruction types: • Add (ADD) • Multiple (MUL) •... -
Page 70: Move/Logical Category
DeviceLogix Capabilities For more information on the Compute category, refer to the DeviceLogix System User Manual, publication RA-UM003. Move/Logical Category The Move/Logical category includes fundamental bit type logic operations, including the instruction types: • Boolean • AND (BAND) • Not AND (BNAND) •... - Page 71 DeviceLogix Capabilities Function Block Type Input 1 Input 2 Output Value Not OR (BNOR) Exclusive OR (BXOR) Exclusive Not OR (BXNOR) NOT (BNOT) The Input number can be set in a property page; the default number is 2. BNOT has only one input. Latch Functions There are two kinds of Latch functions: Set Dominant Latch (SR) and Reset Dominant Latch (RS).
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Page 72: Logic Execution Time
DeviceLogix Capabilities Function Block Type Reset Value at time + Value at time + RS (Reset Dominant) For more information on the Move/Logical category, refer to the DeviceLogix System User Manual, publication RA-UM003. Logic Execution Time The execution time is dependent on the total number of function blocks used in the entire DeviceLogix program. -
Page 73: Digital Inputs To Function Blocks
DeviceLogix Capabilities Digital Inputs to Function Blocks When the Bit Input I/O tag connector is added to the DeviceLogix editor, the following input options are available: Hardware Discrete Input 0 through Discrete Input 7 are the states of the eight I/O points on the module. - Page 74 DeviceLogix Capabilities If you are using the EtherNet/IP or ControlNet adapter, it is suggested that you use the COS/Cyclic connection status bits to determine the health of the connection with a master. The following are the status bits for the eight Peer connections: •...
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Page 75: Analog Inputs To Function Blocks
DeviceLogix Capabilities Analog Inputs to Function Blocks When the Analog Input I/O tag connector is added to the DeviceLogix editor, the following options are available. Network Analog Input Network Input Word 0 through Network Input Word 7 are sent to the DeviceLogix program through the Output Assembly. -
Page 76: Digital Outputs From Function Blocks
DeviceLogix Capabilities Digital Outputs from Function Blocks Hardware Discrete Output 0 through Discrete Output 7 are the eight hardware outputs available on the module. If these tags are unused (that is, not mapped in the DeviceLogix program), then there is a virtual mapping from the Data Byte Output Assembly to the output point. - Page 77 DeviceLogix Capabilities This flowchart shows the process and priority the module follows when updating each Digital Output Point (DOP). The process considers module states such as Network Fault and Run/Idle, configurable parameters such as Network Fault Override, and Logic states such as Logic Enabled and Force. Output Ownership (Value Source Selector Behavior for Bound Outputs) Update Output...
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Page 78: Analog Outputs From Function Blocks
DeviceLogix Capabilities Network Network Output Bit 0 through Network Output Bit 7 are mapped to the Input I/O Assembly byte 1. These bits can be sent to the owning processor or to other peers. In RSLogix 5000, the tag name is UserDefinedBitData. Analog Outputs from Function Blocks Network Network Output Word 0 through Network Output Word 7 are mapped to the... -
Page 79: Enable Line Feature
DeviceLogix Capabilities The Enable Line feature can be supported by each instruction type in the Enable Line feature Function Block Editor. When an instruction supports the Enable Line feature, that particular instruction can only be executed when Enable Line is on; otherwise, that instruction maintains the data from the last data scan. -
Page 80: Offline And Online Editing
DeviceLogix Capabilities Editing of the configuration and DeviceLogix program can be done off-line Offline and Online Editing and saved in the DNT file created by RSnetWorx for DeviceNet. The changes, however, must be manually downloaded to the module while online. When using RSLogix 5000 with an EtherNet/IP or ControlNet adapter, the forward open to the DeviceLogix module does not contain any configuration information. -
Page 81: Enable/Disable Logic
DeviceLogix Capabilities For logic to execute, it must be enabled. While editing online with RSNetWorx Enable/Disable Logic for DeviceNet, you can enable logic. Logic Enable On Use the Logic Enable On function to notify the device to start processing the stored logic diagram. -
Page 82: Messaging
DeviceLogix Capabilities There are certain parameters that you may want to SET or READ from the Messaging module that are not part of the I/O Assemblies. Those parameters are still available through messaging. This section contains advanced user information. You should understand the CIP object model and be familiar with the terms Service, Class, Instance, and Attribute. - Page 83 DeviceLogix Capabilities The following table shows this data for the Logic Supervisor, Timer, and Counter function blocks. Function Block Class Instance Attribute Data Length Code Logic Supervisor 0x30E Logic Enable (0x01) 1 byte Timer Function 0x30A Displayed in Preset Time (0x04) 2 bytes Block editor...
- Page 84 DeviceLogix Capabilities To configure the message, do the following: 1. Click the ellipsis (…) button. The Message Configuration dialog box appears. 2. Set the message type to “CIP Generic.” 3. Set the Service Type to “Set Attribute Single” to set data or “Get Attribute Single”...
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Page 85: Troubleshooting
Chapter Troubleshooting This chapter provides information about module diagnostics, and about About This Chapter troubleshooting with the following indicators: • Module status • Network status • DeviceLogix status • Power indication • I/O POINT status (ON/OFF/fault or diagnostic) In addition, the following troubleshooting scenarios are provided: •... -
Page 86: Status Indicators Of Point I/O Module
Troubleshooting See the figure and tables that show how to interpret the status indicators. Status Indicators of POINT I/O Module 1734-8CFGDLX Module Module Status Module Status Network Status Network Status NODE: Device DeviceLogix Status Logix Status Status of I/O 0 Status of I/O 4 Status of I/O 1 Status of I/O 5... - Page 87 Troubleshooting Network Status Indication Probable Cause Recommended Action Device is not online. Apply power to device, wait for - Device has not completed dup_MAC_id to complete, and dup_MAC_id test. correct, as needed. - Device not powered - check module status indicator. Green Device is online and has connections None.
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Page 88: Status Indicators Of Armorpoint I/O Modules
Troubleshooting See the figure and tables that show how to interpret the status indicators. Status Indicators of ArmorPOINT I/O Modules 1738-8CFGDLXM8, 1738-8CFGDLXM12, and 1738-8CFGDLXM23 1738-8CFGM12 shown Module Status Indicator Network Status Indicator I/O Status Indicators 44355 Module Status Indication Description Recommended action No power applied to device. - Page 89 Troubleshooting Network Status Indication Description Recommended action Device is not online: Apply power to device, wait for - Device has not completed MAC_id to complete, and correct, dup_MAC-id test. as needed. - Device not powered – check module status indicator. Green Device is online and has one or more None.
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Page 90: Troubleshooting Scenarios
Troubleshooting The following are scenarios you may encounter while using the modules. Troubleshooting Scenarios Peer connection is not working If the Network Status LED is flashing red, one or more connections to the device are broken or not functioning properly. If the device has been configured to consume data from peers, it is possible that the data size or data rate have not been configured correctly. -
Page 91: Configuration Or Devicelogix Program Cannot Be
Troubleshooting Configuration or DeviceLogix program cannot be downloaded to the module A DeviceLogix program and most configurable parameters cannot be changed while the DeviceLogix program is running or when an I/O connection is active. • Inhibit the connection in RSLogix 5000 (if using EtherNet/IP and ControlNet). -
Page 92: Module's Devicelogix Program Exits The Run Mode
Troubleshooting • Clear the Node Active check box in RSNetWorx for DeviceNet (if using a DeviceNet scanner or DeviceNet adapter). Module’s DeviceLogix program exits the Run mode unexpectedly The module’s DeviceLogix program exits the Run mode unexpectedly. A possible reason may be that the ADR feature of the scanner is turned on and the ADR data of the module stored in the scanner is not consistent with what is on the module. -
Page 93: Peer Data Maps
Appendix Peer Data Maps This appendix contains information to help you use peer data from About This Appendix POINT I/O and ArmorPOINT I/O modules in your DeviceLogix program. For descriptions or details on the individual modules, refer to the Installation Instructions or User Manual for the specific modules. -
Page 94: Analog And Specialty Input Modules
Peer Data Maps Produced I/O Sizes of Digital Input Modules (Continued) Catalog Number Description Produced Size 1734-IA2 2-channel 120V AC input 1738-IA2M12AC3 2-channel 120V AC input 1738-IA2M12AC4 2-channel 120V AC input 1734-IA4 4-channel 120V AC input 1734-IM2 2-channel 220V AC input 1734-IM4 4-channel 220V AC input 1734-IB16DM12... -
Page 95: Peer Data Maps
Peer Data Maps Produced I/O Sizes of Analog and Specialty Input Modules (Continued) Catalog Number Description Produced Size 1738-IE2VM12 2-channel analog voltage input 1734-IT2I 2-channel, thermocouple input 1738-IT2IM12 2-channel, thermocouple input 1734-IR2 2-channel, 2-point RTD input 1738-IR2M12 2-channel, 2-point RTD input 1734-SSI Synchronous Serial Interface 1738-SSIM23... -
Page 96: 2-Point Digital Input Modules
Peer Data Maps In the following sections, the input tag name in the DeviceLogix editor is given in the left column, and a description of the tag is given in the right column. This section is intended to be used as a quick guide. For details, refer to the installation instructions or user manual for the specific peer module. -
Page 97: 4-Point Digital Input With Diagnostics Modules
Peer Data Maps 4-Point Digital Input with Diagnostics Modules 1734-IB4D, 1738-IB4DM12 Input Tags for 4-Point Digital Input with Diagnostic Modules Input Tag in DeviceLogix Editor Data Peer X (byte 0, bit 0) Input channel 0 Peer X (byte 0, bit 1) Input channel 1 Peer X (byte 0, bit 2) Input channel 2... -
Page 98: 8-Point Configurable Modules
Peer Data Maps 8-Point Configurable Modules 1734-8CFG, 1738-8CFGM8, 1738-8CFGM12, 1738-8CFGM23 Input Tags for 8-Point Configurable Modules Input Tag in DeviceLogix Editor Data Peer X (byte 0, bit 0) I/O channel 0 Peer X (byte 0, bit 1) I/O channel 1 Peer X (byte 0, bit 2) I/O channel 2 Peer X (byte 0, bit 3) -
Page 99: 8-Point Digital Input Modules With Devicelogix
Peer Data Maps Input Tags for 16-Point Digital Input Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 2, bit 1) SSV fault channel 4…7 Peer X (byte 2, bit 2) SSV fault channel 8…11 Peer X (byte 2, bit 3) SSV fault channel 12…15 Peer X (byte 2, bit 4) Fault LED state... -
Page 100: 2-Point Analog Input Modules And Rtd
Peer Data Maps Input Tags for 8-Point Digital Input Modules with DeviceLogix (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 3, bit 6) Peer missing 6 Peer X (byte 3, bit 7) Peer missing 7 Peer X (word 2) User defined word 0 (PNW0) Peer X (word 3) User defined word 1 (PNW1) -
Page 101: 4-Point Analog Input Modules
Peer Data Maps Input Tags for 2-Point Analog Input Modules and RTD (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 5, bit 5) Channel 1 high high alarm Peer X (byte 5, bit 6) Channel 1 underrange Peer X (byte 5, bit 7) Channel 1 overrange 4-Point Analog Input Modules 1734-IE4C, 1738-IE4CM12... -
Page 102: 8-Point Analog Input Modules
Peer Data Maps Input Tags for 4-Point Analog Input Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 10, bit 5) Channel 2 high high alarm Peer X (byte 10, bit 6) Channel 2 underrange Peer X (byte 10, bit 7) Channel 2 overrange Peer X (byte 11, bit 0) Channel 3 fault... - Page 103 Peer Data Maps Input Tags for 8-Point Analog Input Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 17, bit 1) Channel 1 calibration mode Peer X (byte 17, bit 2) Channel 1 low alarm Peer X (byte 17, bit 3) Channel 1 high alarm Peer X (byte 17, bit 4) Channel 1 low low alarm...
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Page 104: 2-Point Thermocouple Input Modules
Peer Data Maps Input Tags for 8-Point Analog Input Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 21, bit 5) Channel 5 high high alarm Peer X (byte 21, bit 6) Channel 5 underrange Peer X (byte 21, bit 7) Channel 5 overrange Peer X (byte 22, bit 0) Channel 6 fault... -
Page 105: Very High Speed Counter Input Modules
Peer Data Maps Input Tags for 2-Point Thermocouple Input Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 4, bit 7) Channel 0 overrange Peer X (byte 5, bit 0) Channel 1 fault Peer X (byte 5, bit 1) Channel 1 calibration mode Peer X (byte 5, bit 2) Channel 1 low alarm... - Page 106 Peer Data Maps Input Tags for Very High Speed Counter Input Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 9, bit 5) Not ready Peer X (byte 9, bit 6) EEPROM fault Peer X (byte 9, bit 7) Program fault The counter modules produce Double Word values for the Present and Stored Count value, but the DeviceLogix module only uses 16-bit Word values.
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Page 107: Encoder/Counter Input Modules
Peer Data Maps The logic multiplies (MUL function block 6) the high word by 65536 (Source B) and adds it to the Low Word (Add Function Block 7). Function blocks 3, 4, and 5 change the signed word value into an unsigned double word value. Function block 3 checks if the low word is less than 0, if so, the Select block will output 65535 to the Add block. -
Page 108: Rs232 And Rs485 Interface Module
Peer Data Maps Input Tags for Synchronous Serial Interface Modules (Continued) Input Tag in DeviceLogix Editor Data Peer X (byte 8, bit 2) DEC - SSI data count decreasing Peer X (byte 8, bit 3) INC - SSI data count increasing Peer X (byte 8, bit 4) C1R - Comparator 1 value reached Peer X (byte 8, bit 5) -
Page 109: Publication 1734-Um015A-En-E - November
Peer Data Maps Notes: Allen-Bradley HMIs Publication 1734-UM015A-EN-E - November 2009... - Page 110 Peer Data Maps Notes: Publication 1734-UM015A-EN-E - November 2009...
- Page 111 Allen-Bradley HMIs...
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